Lisocabtagene maraleucel in patients with relapsed or refractory marginal zone lymphoma (TRANSCEND FL): primary analysis results from the global, multicohort, single-arm, phase 2 study.
Summary
Lisocabtagene maraleucel in patients with relapsed or refractory marginal zone lymphoma (TRANSCEND FL): primary analysis results from the global, multicohort, single-arm, phase 2 study The Lancet 2026 Articles Lisocabtagene maraleucel in patients with relapsed or refractory marginal zone lymphoma (TRANSCEND FL): primary analysis results from the global, multicohort, single-arm, phase 2 study M Lia Palomba, Stephen J Schuster, Reem Karmali, Alan P Skarbnik, Jeremy S Abramson, Kirit Ardeshna, Pete
Content
# Lisocabtagene maraleucel in patients with relapsed or refractory marginal zone lymphoma (TRANSCEND FL): primary analysis results from the global, multicohort, single-arm, phase 2 study
*The Lancet 2026*
Articles
Lisocabtagene maraleucel in patients with relapsed or
refractory marginal zone lymphoma (TRANSCEND FL):
primary analysis results from the global, multicohort,
single-arm, phase 2 study
M Lia Palomba, Stephen J Schuster, Reem Karmali, Alan P Skarbnik, Jeremy S Abramson, Kirit Ardeshna, Peter Borchmann, Brian T Hill,
Alejandro Martin García-Sancho, Gianpaolo Marcacci, Aaron P Rapoport, Guillaume Cartron, Isabelle Fleury, Koji Izutsu, Manali Kamdar,
Stephan Mielke, Anna Maria Barbui, Juan Luis Reguera Ortega, Loretta J Nastoupil, Sairah Ahmed, Merav Bar, Lizbeth Diaz, Ulrika Furustrand,
Victoria Diab, Min Vedal, Ariel Avilion, Jinender Kumar, Rina Nishii, Silvia Colicino, Franck Morschhauser
Summary
Background Eective treatments with deep and durable responses for relapsed or refractory marginal zone lymphoma Lancet 2026; 407: 963–75
(MZL) are lacking. The objective of the primary analysis from the MZL cohort of TRANSCEND FL was to evaluate the Published Online
ecacy and safety of the CD19-directed chimeric antigen receptor (CAR) T-cell therapy lisocabtagene maraleucel. February 12, 2026
https://doi.org/10.1016/
S0140-6736(25)02435-3
Methods In this phase 2, single-arm, multicohort study, patients from 30 sites in the USA, Canada, Europe, and Japan
See Comment page 917
with relapsed or refractory MZL who had at least two previous lines of systemic therapy were eligible to receive
Memorial Sloan Kettering
lisocabtagene maraleucel (100 × 10⁶ CAR+ T cells). Bridging therapy was allowed. The primary endpoint was overall
Cancer Center, New York, NY,
response rate per independent review committee by CT by use of Lugano 2014 criteria (null hypothesis ≤50%). This
USA (Prof M L Palomba MD);
study is registered with ClinicalTrials.gov, NCT04245839, and is ongoing. Lymphoma Program,
Abramson Cancer Center,
University of Pennsylvania,
Findings Of 77 leukapheresed patients recruited between November 11, 2020, and August 24, 2023, 67 received
Philadelphia, PA, USA
lisocabtagene maraleucel and 66 were ecacy evaluable. MZL subtypes included nodal (n=32 [48%]), splenic (Prof S J Schuster MD);
(n=18 [27%]), and extranodal–mucosa-associated lymphoid tissue (n=17 [25%]). Median (IQR) previous lines of Northwestern University
systemic therapy was 3 (2–4). Median on-study follow-up was 24·1 months. The primary endpoint was met, with an Feinberg School of Medicine,
Robert H Lurie Comprehensive
overall response rate of 95% (n=63; 95% CI, 87·3–99·1; one-sided p<0·0001). All patients experienced a treatment-
Cancer Center, Chicago, IL, USA
related adverse event. Grade 3 cytokine release syndrome or neurological events occurred in three (4%) patients each (R Karmali MD); Novant Health
(no grade 4–5 events). 11 (16%) patients had grade ≥3 infections: six (9%) patients during the 90-day treatment- Cancer Institute, Charlotte, NC,
emergent period and seven (10%) during the post-treatment-emergent period. USA (A P Skarbnik MD);
Lymphoma Program,
Massachusetts General
Interpretation In patients with relapsed or refractory MZL, lisocabtagene maraleucel showed high rates of durable Hospital Cancer Center,
responses. The safety profile was manageable, with no new safety signals. These results support lisocabtagene Harvard Medical School,
maraleucel as a new treatment option for patients with relapsed or refractory MZL. Boston , MA, USA
(Prof J S Abramson MD);
University College London
Funding Celgene, a Bristol-Myers Squibb Company. Hospitals Biomedical Research
Centre, London, UK
Copyright © 2026 Elsevier Ltd. All rights reserved, including those for text and data mining, AI training, and similar (K Ardeshna MD); Universität zu
Köln, Albertus-Magnus-Platz,
technologies.
Cologne, Germany
(Prof P Borchmann MD);
Introduction (eg, zanubrutinib), can be used to treat MZL from first Cleveland Clinic, Cleveland, OH,
Marginal zone lymphoma (MZL) is an indolent B-cell relapse,8,9 patients with relapsed or refractory MZL in USA (B T Hill MD); Hospital
Universitario de Salamanca,
malignancy that accounts for 7% of mature non-Hodgkin their third line or later of therapy represent a high-risk
IBSAL, CIBERONC, Universidad
lymphomas.1–4 MZL is characterised by slow growth, and subset of patients for whom more eective therapies de Salamanca, Salamanca,
it does not always require immediate therapy. A with deep and durable responses are needed.2 Spain (A M García-Sancho MD);
National Cancer Institute,
proportion of patients will eventually require treatment, Promising outcomes have been observed with
Fondazione ‘G Pascale’, IRCCS,
which typically includes a CD20 monoclonal antibody as axicabtagene ciloleucel chimeric antigen receptor (CAR)
Naples, Italy (G Marcacci MD);
first-line therapy. Although patients with MZL generally T-cell therapy in patients with relapsed or refractory MZL University of Maryland
respond to initial treatment, repeated relapses are (n=31) in the third line or later setting.10 Nevertheless, Marlene and Stewart
Greenebaum Comprehensive
common.2 Patients with progression of disease up to this therapy is not approved for the treatment of relapsed
Cancer Center, Baltimore, MD,
24 months (POD24) after diagnosis or initial treatment or refractory MZL, is associated with considerable
USA (Prof A P Rapoport MD);
have inferior outcomes, with higher risk of disease toxicity, and its ecacy in splenic MZL was not evaluated Montpellier University Hospital
transformation and shorter survival.2,5–7 Although some in the ZUMA-5 study. Center, UMR CNRS,
Montpellier, France
systemic therapies, including lenalidomide plus Lisocabtagene maraleucel, an autologous, CD19-
(Prof G Cartron MD); Hôpital
rituximab (R²) and Bruton tyrosine kinase inhibitors directed, 4-1BB CAR T-cell product, has previously shown
Maisonneuve–Rosemont,
Articles
Montreal, QC, Canada
Research in context
(I Fleury MD); National Cancer
Center Hospital, Chuo City,
Evidence before this study patients with relapsed or refractory MZL to date. The study
Tokyo, Japan (K Izutsu MD);
University of Colorado Cancer We searched PubMed for clinical studies published from included patients with all three subtypes of MZL (nodal,
Center, Aurora, CO, USA March 20, 2005, to March 20, 2025, using the terms “chimeric extranodal–mucosa-associated lymphoid tissue, and splenic). In
(M Kamdar MD); Departments
antigen receptor” and “marginal zone lymphoma”. Our search TRANSCEND FL, lisocabtagene maraleucel showed deep and
of Laboratory Medicine and
identified two manuscripts reporting clinical study results of durable responses with high survival rates at 24 months in
Medicine at Huddinge, Center
of Allogeneic Stem Cell chimeric antigen receptor (CAR) T-cell therapy in marginal zone patients with relapsed or refractory MZL. The clinical benefit of
Transplantation and Cellular lymphoma (MZL). Both manuscripts were based on ZUMA-5, lisocabtagene maraleucel was observed in a broad population
Therapy, Karolinska Institutet
a single-arm, multicentre, phase 2 study of axicabtagene of patients, showing high response rates across all subgroups.
and University Hospital,
ciloleucel in patients with relapsed or refractory indolent non- The safety profile was manageable, and no new safety signals
Karolinska Comprehensive
Cancer Center, Karolinska Hodgkin lymphoma, representing results from the primary were identified beyond those observed in lisocabtagene
ATMP Center, H5 Laboratories analysis and the 3-year follow-up. Although axicabtagene maraleucel studies in other B-cell malignancies. These data
Medicine, Stockholm, Sweden
ciloleucel showed high response rates and durable responses in support a one-time infusion of lisocabtagene maraleucel as an
(Prof S Mielke MD); Azienda
Socio Sanitaria Territoriale patients with relapsed or refractory MZL, the number of effective treatment option for patients with relapsed or
Papa Giovanni XXIII, Bergamo, patients with relapsed or refractory MZL was low (n=31 at refractory MZL after at least two previous lines of systemic
Italy (A M Barbui MD); Hospital 3-year follow-up) and only included patients with nodal or therapy, a population with poor outcomes for which effective
Universitario Virgen del Rocío,
extranodal MZL. Furthermore, axicabtagene ciloleucel was and tolerable treatments are needed.
Instituto de Biomedicina de
Sevilla, Universidad de Sevilla, associated with substantial toxicities; grade 3 or higher Implications of all the available evidence
Seville, Spain (J L R Ortega MD); cytokine release syndrome in two (8%) patients, grade 3 or
TRANSCEND FL represents the most recent and extensive effort
Southwest Oncology, higher neurological events in nine (38%) patients, and grade 3
CommonSpirit Mercy, to explore CAR T-cell therapy in the largest cohort of patients
or higher infections occurred in seven (29%) patients. Findings
Durango, CO, USA with relapsed or refractory MZL to date, building on the initial
(L J Nastoupil MD); MD from ZUMA-5 remain to be validated in larger studies.
observations from ZUMA-5. These results show that the CAR
Anderson Cancer Center,
Added value of this study T-cell therapy lisocabtagene maraleucel can provide meaningful
Houston, TX, USA
(S Ahmed MD); Bristol Myers TRANSCEND FL is a multicentre, clinical study, which evaluated clinical benefit, driving advances in the treatment of relapsed or
Squibb, Seattle, WA, USA CD19-directed CAR T-cell therapy in the largest number of refractory MZL.
(A Avilion PhD); Bristol Myers
Squibb, Boudry, Switzerland
(M Bar MD, L Diaz MD,
U Furustrand PhD, M Vedal PhD, deep and durable responses with a manageable safety received at least two previous lines of systemic therapy,
S Colicino PhD); Bristol Myers
profile in patients with relapsed or refractory large B-cell including at least one line of combination systemic
Squibb, Princeton, NJ, USA
(V Diab BSN, J Kumar MS, lymphoma, chronic lymphocytic leukaemia (CLL)–small therapy with an anti-CD20 antibody and an alkylating
R Nishii PhD); Département lymphocytic lymphoma (SLL), mantle cell lymphoma, and agent, or had relapsed disease after haematopoietic
d’Hématologie, Université de follicular lymphoma.11–16 TRANSCEND FL is a phase 2, stem cell transplantation. Full eligibility criteria are
Lille, Centre Hospitalier
pivotal study that aimed to assess the ecacy and safety of available in the appendix (pp 6–8, 90–95). Protocol
Universitaire de Lille, Groupe
de Recherche sur les formes lisocabtagene maraleucel in adults with relapsed or changes since study initiation are noted in the appendix
Injectables et les Technologies refractory follicular lymphoma or MZL. Results in the (p 10). This study is registered with ClinicalTrials.gov,
Associées, Lille, France
follicular lymphoma cohorts were previously reported.13,17 NCT04245839.
(Prof F Morschhauser MD)
Here, we report the primary analysis for patients in the The study was done in accordance with the Declaration
Correspondence to:
relapsed or refractory MZL cohort. of Helsinki, International Conference on Harmonisation
Dr M Lia Palomba, Memorial
Sloan Kettering Cancer Center, Good Clinical Practice guidelines, and applicable
New York, NY 10065, USA Methods regulatory requirements. Institutional review boards or
palombam@mskcc.org Study design ethics committees at participating institutions approved
See Online for appendix The MZL cohort of the global, phase 2, open-label, the study protocol and amendments (appendix p 5). All
single-arm, multicohort TRANSCEND FL study patients provided written informed consent before any
assessed the ecacy and safety of lisocabtagene study-related procedures.
maraleucel in patients aged at least 18 years with
diagnosis of MZL in 30 sites in the USA (14 sites), Procedures
Canada (1 site), Europe (14 sites), and Japan (1 site). All patients underwent leukapheresis for lisocabtagene
Patients must have had histologically confirmed MZL in maraleucel manufacturing. Bridging therapy for disease
the 6 months before screening, as assessed by local control was allowed at the investigator’s discretion
pathology; additionally, samples were sent for during manufacturing. If bridging therapy was
retrospective central pathology assessment for all administered, reconfirmation of measurable disease
enrolled patients. Patients must have had measurable per CT was required before receiving lymphodepleting
disease per CT assessment. PET assessment was also chemotherapy (fludarabine 30 mg/m² and
mandated at screening. Patients must have had relapsed cyclophosphamide 300 mg/m² intravenously daily for
or refractory disease per investigator discretion and had 3 days). Patients received a single intravenous infusion
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of lisocabtagene maraleucel at a target dose of except cytokine release syndrome (CRS; graded per
100 × 10⁶ CAR+ T cells 2–7 days after lymphodepleting Lee and colleagues 2014 criteria21) and tumour lysis
chemotherapy; retreatment with lisocabtagene syndrome (graded per Cairo–Bishop criteria22). Sex
maraleucel was not allowed. Per protocol, patients with (biological attribute) was reported by clinicians.
hypo gamma globulinaemia (serum IgG <500 mg/dL)
should have been considered for intravenous IgG Statistical analysis
therapy per institutional guidelines. Lisocabtagene Ecacy assessments were done in the lisocabtagene
maraleucel infusion and monitoring in the outpatient maraleucel-treated ecacy analysis set, including all
setting was allowed at the investigator’s discretion. patients who received lisocabtagene maraleucel and had
Patients were to be followed up for up to 5 years in measurable disease as assessed by CT per IRC. The
TRANSCEND FL. On completion or early 95% CIs for response rates were two-sided and based on
discontinuation, all patients treated with lisocabtagene the exact Clopper–Pearson method. Time-to-event
maraleucel are asked to enrol in a separate long-term endpoints were summarised with medians and 95% CIs
follow-up study (NCT03435796) for up to 15 years after by use of the Kaplan–Meier method. Safety analyses
lisocabtagene maraleucel infusion for assessments of were done in the lisocabtagene maraleucel-treated
safety and survival. analysis set, including all patients who received
lisocabtagene maraleucel. Patients who received non-
Outcomes conforming product, defined as any product wherein
The primary endpoint was overall response rate one of the CD8 or CD4 cell components did not meet
per independent review committee (IRC) by CT based on one of the requirements to be considered lisocabtagene
Lugano 2014 criteria (appendix pp 11, 144).18 Secondary maraleucel, but could be considered appropriate for
ecacy endpoints were complete response rate, duration infusion, were not included in the lisocabtagene
of response, duration of response in patients with a best maraleucel–treated analysis set or in the lisocabtagene
overall response of complete response, progression-free maraleucel–treated ecacy analysis set. The cellular
survival, and overall survival. Additional secondary kinetics set included patients in the lisocabtagene
endpoints were safety measured as type, frequency, and maraleucel–treated analysis set who had at least
severity of adverse events and laboratory abnormalities; one available measurement of cellular kinetics by PCR
cellular kinetics measured by PCR; and patient-reported assessment. PROs were summarised descriptively and
outcomes (PROs). The primary domains of interest in evaluated in the PRO analysis set, which included
PRO assessments and corresponding thresholds are patients in the lisocabtagene maraleucel–treated
reported in the appendix (pp 9, 12).19,20 Peripheral B-cell analysis set who completed a pre-lymphodepleting
aplasia was assessed as an exploratory endpoint. chemotherapy baseline visit and at least one post-
Additional prespecified analyses included DOR in baseline PRO measurement. Details on handling of
patients with a best overall response of partial response missing data and intercurrent events are provided in the
and prespecified ecacy subgroup analyses. Sensitivity appendix (p 9).
analyses of primary and secondary ecacy endpoints, With a sample size of 60 patients with MZL treated with
including ORR, complete response rate, duration of lisocabtagene maraleucel, by use of exact binomial one-
response, progression-free survival, and overall survival, sample tests unadjusted for the hierarchical testing
were done on the basis of the leukapheresed set procedure, there would be 90% power to test overall
(intention-to-treat set). Post-hoc analyses included time to response rate and complete response rate endpoints
next treatment and responses derived from investigator- versus null hypotheses (H) with one-sided 0·025 level
assessed PET data in patients with PET-avid disease at testing. The H was up to 50% for overall response rate
baseline. and up to 5% for complete response rate based on
Disease assessment was done at screening and, for available clinical data at the time of study design.23 To
patients who received bridging therapy, also before control the type I error rate, primary (overall response
lymphodepleting chemotherapy. Response assessments rate) and secondary (complete response rate) endpoints
were done at days 29 and 90; at months 6, 9, 12, 18, were tested hierarchically, with overall response rate
and 24; and every 12 months thereafter until month 60 tested first at a one-sided 0·025 level. If the H for overall
after infusion. Treatment-emergent adverse events were response rate was rejected, then complete response rate
defined as adverse events that started any time from was subsequently tested at a one-sided 0·025 level
lisocabtagene maraleucel infusion through and (appendix p 9). All statistical analyses were done with
including 90 days after infusion. Neurological events SAS (version 9.4).
were defined as investigator-identified neurological
adverse events related to lisocabtagene maraleucel. Role of the funding source
Adverse events, including neurological events, were The funder of the study led the study design, data
graded per the National Cancer Institute Common collection, data analysis, data interpretation, and the
Terminology Criteria for Adverse Events, version 5.0, writing of the report.
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included rituximab (15 [22%] of 67), cyclophosphamide
77 leukapheresed intention-to-treat set (nine [13%] of 67), or prednisone (seven [10%] of 67),
radiation therapy only (three [4%] of 67), and both
systemic and radiation therapy (one [1%] of 67). Median
10 not infused with lisocabtagene maraleucel
4 died* (IQR) on-study follow-up in the lisocabtagene
3 no longer met eligibility criteria† maraleucel–treated analysis set was 24·1 months
2 received non-conforming product‡
1 disease progression (18·1–30·0).
In the lisocabtagene maraleucel–treated analysis set
(table 1), median (IQR) age was 62 years (57–71). MZL
67 lisocabtagene maraleucel-treated
subtypes included nodal (32 [48%] of 67), splenic
analysis set (safety set)
(18 [27%] of 67), and extranodal–mucosa-associated
lymphoid tissue (17 [25%] of 67). 57 (85%) of 67 patients
1 efficacy not evaluable had Ann Arbor stage III–IV disease at screening,
1 CT imaging not repeated after bridging
53 (79%) of 67 had high-risk MZL-International
therapy
Prognostic Index (IPI), 24 (36%) of 67 had progression
of disease before 24 months (POD24) from initiation of
66 lisocabtagene maraleucel-treated
first-line immunochemotherapy, 26 (39%) of 67 had
efficacy analysis set§
refractory disease to last systemic therapy, 41 (61%) of 67
had relapsed disease after last systemic therapy, and
Figure 1: CONSORT diagram
*Including three deaths due to disease progression and one to suicide; for these 15 (22%) of 67 had bulky disease on the basis of
four patients, death was the reason for study discontinuation. †Including modified Groupe d’Etude des Lymphomes Folliculaires
one patient who did not have marginal zone lymphoma histologically confirmed criteria. Median (IQR) previous lines of systemic
within 6 months of screening, one patient with a substantial medical condition,
therapy was 3 (2–4). Patient characteristics of the
and one patient with worsening Eastern Cooperative Oncology Group
performance status. ‡Non-conforming product was defined as any product leukapheresed set are reported in the appendix
wherein one of the CD8 or CD4 cell components did not meet one of the (pp 14–15) and are consistent with the patient
requirements to be considered lisocabtagene maraleucel, but could be characteristics of the lisocabtagene maraleucel–treated
considered appropriate for infusion. §Patients who received lisocabtagene
analysis set.
maraleucel and had positive disease present before lisocabtagene maraleucel
infusion per independent review committee. Patients without baseline In the 66 patients in the lisocabtagene maraleucel–
assessment repeated after anticancer therapy for disease control and before treated ecacy analysis set, the primary endpoint of
lisocabtagene maraleucel infusion were excluded. IRC-assessed overall response rate was met at
95% (63 of 66; 95% CI 87·3–99·1; p<0·0001), rejecting
Results the H of up to 50% (figure 2A). The secondary endpoint
The key results of this study are summarised in plain of complete response rate was met at 62% (41 of 66;
language (appendix p 4). A total of 77 patients with 95% CI 49·3–73·8; p<0·0001), rejecting the H of up
relapsed or refractory MZL were enrolled in the study to 5%.
and underwent leukapheresis across the 30 sites The median duration of response was not reached
(appendix p 3); patients were recruited between (NR) in the overall population and in patients with a best
Nov 11, 2020, and Aug 24, 2023. Protocol deviations are overall response of partial response or complete
noted in the appendix (p 13). Of the 77 leukapheresed response (figure 2; appendix p 16). The 24-month
patients, 67 received lisocabtagene maraleucel and were (95% CI) duration of response rate was 89% (72·4–95·6)
included in the lisocabtagene maraleucel–treated in the overall responder population, 89% (66·6–96·7) in
analysis set; 66 were ecacy-evaluable (lisocabtagene patients with BOR of complete response, and 89%
maraleucel–treated ecacy analysis set; figure 1). (62·2–97·2) in patients with best overall response of
Reasons for not receiving lisocabtagene maraleucel were partial response (figure 2B). The complete response rate
death (n=4; three due to disease progression and one due at 24 months for patients with best overall response of
to suicide), no longer meeting eligibility criteria (n=3), complete response was 52% (95% CI 38·9–64·0) per
disease progression (n=1), and receiving a non- IRC assessment. The median progression-free survival
conforming product (n=2). 13 (19%) of 67 patients were and overall survival were NR (95% CI 34·8 months–NR)
monitored in the outpatient setting. For leukapheresed and NR, respectively, with 24-month (95% CI) rates
patients, the median (IQR) time from leukapheresis to of 86% (72·2–92·9) and 90% (79·8–95·6). The median
lisocabtagene maraleucel availability was 29 days time to next treatment was NR; 24-month free of next
(24–30), and the median (IQR) time from leukapheresis therapy rate was 87% (95% CI 75·9–93·4; appendix
to lisocabtagene maraleucel infusion was 50 days p 31). Ecacy outcomes in the leukapheresed (intention-
(43–56). 30 (45%) of 67 patients received bridging therapy to-treat) set, which included eight patients who did not
during lisocabtagene maraleucel manufacturing. receive CAR T-cell therapy and two patients who received
Bridging therapies included systemic therapy only non-conforming product, are reported in the appendix
(26 [39%] of 67), most commonly with regimens that (p 17).
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Lisocabtagene Lisocabtagene
maraleucel– maraleucel–
treated analysis treated analysis
set (n=67)* set (n=67)*
Age, years 62 (57–71) (Continued from previous column)
<65 years 37 (55%) Mucosa-Associated Lymphoid Tissue International Prognostic Index for
≥65 years 30 (45%) patients with extranodal–mucosa-associated lymphoid tissue MZL (n=17)
≥70 years 20 (30%) Low risk (0) 1 (6%)
≥75 years 10 (15%) Intermediate risk (1) 11 (65%)
Sex High risk (2–3) 5 (29%)
Male 39 (58%) Lactate dehydrogenase > upper limit of normal before 32 (48%)
lymphodepleting chemotherapy
Female 28 (42%)
Bone marrow involvement at screening 28 (42%)
Race
≥20% lymphoma cells in bone marrow 20 (30%)
White 38 (57%)
CNS involvement at screening 1 (1%)
Asian 4 (6%)
Splenomegaly at screening 21 (31%)
Black or African American 1 (1%)
Previous splenectomy 6 (9%)
Not collected or unknown† 24 (36%)
Previous lines of systemic therapy|| 3 (2–4)
Ethnicity
Previous haematopoietic stem cell transplantation 11 (16%);
Hispanic or Latinx 1 (1%) all ASCT
Not Hispanic or Latinx 45 (67%) Received previous rituximab and lenalidomide 15 (22%)
Not reported 21 (31%) Received previous bendamustine 52 (78%)
MZL subtype Received previous Bruton tyrosine kinase inhibitor 26 (39%)
Nodal 32 (48%) Refractory to last systemic therapy** 26 (39%)
Splenic 18 (27%) Relapsed after last systemic therapy** 41 (61%)
Extranodal–mucosa-associated lymphoid tissue 17 (25%) Progression of disease ≤24 months from initiation of 24 (36%)
Eastern Cooperative Oncology Group performance status at screening first-line chemoimmunotherapy
0 37 (55%) Received bridging therapy 30 (45%)
1 30 (45%) Time from initial MZL diagnosis to first progression, 2 (1–5)
Ann Arbor stage at screening years
Stage I 3 (4%) Time from initial MZL diagnosis to infusion, years 7 (4–10)
Stage II 7 (10%) Data are n (%) or median IQR. mGELF=modified Groupe d’Etude des Lymphomes
Stage III 8 (12%) Folliculaires. ASCT=autologous stem cell transplantation. MZL=marginal zone
lymphoma. MZL-IPI=Marginal Zone Lymphoma International Prognostic Index.
Stage IV 49 (73%) *Percentages may not add up to 100% due to rounding. †Due to some European
mGELF criteria‡ 41 (61%) country regulations. ‡Met the following criteria at study screening: presence of
Bulky disease at screening§ 15 (22%) B symptoms, cytopenias (leukocyte count <1 × 10/L or platelet count
<100 × 10/L), bulky disease (single mass >7 cm or at least three masses >3 cm), or
Follicular Lymphoma International Prognostic Index at screening
splenomegaly.24 §On the basis of mGELF criteria, bulky disease was defined as any
Low risk (0–1) 11 (16%) mass greater than 7 cm, or at least three masses (each >3 cm), per investigator’s
Intermediate risk (2) 13 (19%) assessment. ¶For MZL-IPI, disseminated MZL was not assessed in this study and,
therefore, patients were assigned a point for MZL subtype only if they had nodal
High risk (3–5) 41 (61%)
MZL; the proportion of patients with high-risk MZL-IPI might be under-reported
Not available 2 (3%) in this study. ||Including chemotherapy, immunotherapy, and
MZL-IPI¶ radioimmunotherapy. **Refractory disease was defined as a best response of
stable disease or progressive disease after previous therapy. Relapsed disease was
Low risk (0) 0
defined as relapse after initial complete response or partial response to previous
Intermediate risk (1–2) 14 (21%) therapy.
High risk (3–5) 53 (79%)
Table 1: Demographics and baseline characteristics (lisocabtagene
(Table 1 continues in next column) maraleucel–treated analysis set; n=67)
Overall response rate, complete response rates, and with more recent (≤24 months) or earlier (>24 months)
24-month rates of duration of response and progression- bendamustine exposure before leukapheresis (appendix
free survival among subgroups were consistent with pp 18, 36–37).
those of the overall population, with all three MZL In the post-hoc analysis of PET-based response per
subtypes and high-risk feature subgroups showing investigator’s assessment in 56 patients with PET-avid
numerically similar responses (figure 3; appendix disease at baseline, lisocabtagene maraleucel showed an
pp 32–35). Outcomes were consistent regardless of overall response rate of 98% (55 of 56) and a complete
previous bendamustine exposure (figure 3; appendix response rate of 91% (51 of 56). Consistent with CT-based
pp 18, 32–35) with no major dierences between patients assessment, median (95% CI) duration of response and
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100 Overall response rate 95% n=63 (95% CI* 87·3–99·1) p<0·0001†
90 Complete response rate 62% n=41 (95% CI* 49·3–73·8) p<0·0001†
70 62%
50
40 33%
30 n=41
n=22 2% 2% 2%
10 n=1 n=1 n=1
Complete Partial Stable Progressive NE
response response disease disease
Figure 2: Efficacy outcomes per independent review committee assessment by CT by use of Lugano 2014 criteria18 (efficacy analysis set; n=66)
(A) Response rates. (B) Duration of response. (C) Progression-free survival. (D) Overall survival. NE=not evaluable. NR=not reached. *Two-sided 95% CI based on exact Clopper–Pearson method.
†One-sided p value based on the exact binomial test (H of overall response rate ≤50%; H of complete response rate ≤5%). ‡Based on Kaplan–Meier estimates. §Based on the reverse Kaplan–Meier
0 0
method.
progression-free survival per PET were NR was 23·0 months (22·3–23·4) for duration of response
(33·9 months–NR) and NR (34·8 months–NR), and 24·0 months (23·4–24·5) for progression-free
respectively, with 24-month rates (95% CI) of 84% survival.
(66·3–92·5) and 87% (74·9–93·7), respectively. In this All 67 (100%) lisocabtagene maraleucel–treated patients
post-hoc analysis, the complete response rate at had at least one TEAE of any grade and 59 (88%) had
24 months per PET by investigators was 80% TEAEs of grade 3 or higher (appendix p 19). The most
(95% CI 67·6–89·8). The median (95% CI) follow-up common any-grade TEAEs were CRS (51 [76%] of 67),
968
rep
esnopser
llarevo
tseB
)%(
eettimmoc
weiver
tnednepedni
A
Efficacy analysis set (n=66)
C
(95% CI)
90
70
50
30
10 Median follow-up§: 23·8 months (95% CI 19·4–24·1)
0 3 6 9 12 15 18 21 24 27 30 33 36 39
Time from lisocabtagene maraleucel infusion (months)
Number at risk
(censored)
Third-line or 66 63 61 61 59 51 45 37 23 12 10 10 3 0
later marginal (0) (0) (0) (0) (1) (8) (5) (8) (13) (9) (2) (0) (6) (3)
zone lymphoma
Complete response 41 41 40 40 38 33 30 27 16 9 7 7 2 0
(0) (0) (0) (0) (1) (5) (3) (3) (10) (6) (2) (0) (4) (2)
Partial response 22 22 21 21 21 18 15 10 7 3 3 3 1 0
(0) (0) (0) (0) (0) (3) (2) (5) (3) (3) (0) (0) (2) (1)
lavivrus
eerf-noissergorP
)%(
eettimmoc
weiver
tnednepedni
rep
D
Partial response NR (26·4 months–NR)‡
Complete response NR (34·8 months–NR)‡
Third-line or later marginal zone NR (34·8 months–NR)‡
lymphoma
90
70
24-month progression-free survival‡ 60 86% (95% CI 72·2–92·9)
24-month progression-free survival in complete response‡
90% (95% CI 70·3–96·9) 40
24-month progression-free survival in partial response‡ 30
90% (95% CI 65·9–97·5)
10 Median follow-up§: 24·5 months (95% CI 23·7–29·5)
0 3 6 9 12 15 18 21 24 27 30 33 36 39 42 45
Time from lisocabtagene maraleucel infusion (months)
Number at risk
(censored)
Third-line or 66 64 64 64 63 54 51 42 35 23 16 15 7 4 3 0
later marginal (0) (0) (0) (0) (0) (7) (2) (9) (7) (10) (7) (1) (7) (3) (1) (3)
zone lymphoma
Complete response 41 41 41 41 40 35 35 29 25 17 11 11 6 4 3 0
(0) (0) (0) (0) (0) (4) (0) (6) (4) (7) (6) (0) (4) (2) (1) (3)
Partial response 22 22 22 22 22 19 16 13 10 6 5 4 1 0
(0) (0) (0) (0) (0) (3) (2) (3) (3) (3) (1) (1) (3) (1)
)%(
lavivrus
llarevO
B
90
70
50
30
10
0 3 6 9 12 15 18 21 24 27 30 33 36
Number at risk
(censored)
Complete response 63 62 60 60 51 44 34 31 12 9 8 7 0
and partial response (0) (1) (0) (0) (8) (6) (10) (3) (18) (1) (1) (1) (6)
Complete response 41 40 39 39 34 31 26 24 10 8 7 7 0
(0) (1) (0) (0) (4) (3) (5) (2) (13) (1) (1) (0) (6)
Partial response 22 22 21 21 17 13 8 7 2 1 1 0
(0) (0) (0) (0) (4) (3) (5) (1) (5) (0) (0) (1)
(95% CI)
Partial response NR (26·4 months–NR)‡
Complete response NR‡
Third-line or later marginal zone NR‡
lymphoma
24-month overall survival‡ 90% (95% CI 79·8–95·6)
24-month overall survival in complete response‡
95% (95% CI 80·9–98·7)
24-month overall survival in partial response‡
95% (95% CI 68·1–99·2)
rep
esnopser
fo
noitaruD
)%(
eettimmoc
weiver
tnednepedni
(95% CI)
Partial response 25·6 (25·6 months–NR)‡
Complete response NR (24·5 months–NR)‡
Complete response and partial response NR (25·6 months–NR)‡
24-month duration of response‡
89% (95% CI 72·4–95·6)
24-month duration of response in
complete response‡
89% (95% CI 66·6–96·7)
24-month duration of response in
partial response‡
89% (95% CI 62·2–97·2)
Median follow-up§: 21·6 months (95% CI 17·3–22·8)
Time from response (months)
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Evaluable patients Progression-free survival rate
n at 24 months (95% CI)
Overall 66 8855··77 ((7722··22––9922··99))
Age, years
<65 36 8833··22 ((6622··99––9933··00))
≥65 and <75 20 9900··00 ((6655··66––9977··44))
≥75 10 9900··00 ((4477··33––9988··55))
Sex (biological attribute)
Male 38 8855··22 ((6622··00––9944··88))
Female 28 8855··77 ((6666··33––9944··44))
Race
White 38 8877··33 ((6688··11––9955··33))
Non-White 5 110000 (100·0–100·0)
Ethnicity
Not Hispanic or Latinx 45 8877··00 ((7700··33––9944··66))
Marginal zone lymphoma subtype
Extranodal–mucosa-associated lymphoid tissue lymphoma 17 8888··22 ((6600··66––9966··99))
Nodal 32 9900··44 ((7733··11––9966··88))
Splenic 17 7733··55 ((3322··66––9911··99))
Relapsed vs refractory
Relapsed 41 8844··22 ((6633··22––9933··77))
Refractory 25 8877··66 ((6666··33––9955··88))
Bulky disease at screening†
Yes 14 9922··99 ((5599··11––9999··00))
No 52 8833··44 ((6666··44––9922··33))
Progression of disease within 24 months from initial immunochemotherapy
Yes 23 7733··44 ((3388··22––9900··55))
No 43 9900··77 ((7777··11––9966··44))
Number of previous systemic lines of therapies
2 29 7777··66 ((5500··33––9911··11))
3 16 8877··55 ((5588··66––9966··77))
≥4 21 9944··44 ((6666··66––9999··22))
Previous autologous stem cell transplantation
Yes 11 8800··88 ((4422··44––9944··99))
No 55 8866··44 ((6699··99––9944··22))
Previous Bruton tyrosine kinase inhibitor at any time
Yes 26 9900··00 ((4477··33––9988··55))
No 40 8822··11 ((6666··00––9911··11))
Previous lenalidomide plus rituximab
Yes 15 8866··77 ((5566··44––9966··55))
No 51 8844··99 ((6677··00––9933··55))
Previous bendamustine
Yes 51 8899··99 ((7777··33––9955··77))
No 15 6644··66 ((1177··66––8899··66))
Bridging therapy
Yes 29 8855··22 ((5588··77––9955..33))
No 37 8866··44 ((7700··44––9944··11))
0 10 20 30 40 50 60 70 80 90 100
Figure 3: Forest plots of subgroup analysis: 24-month rates of progression-free survival per independent review committee based on CT assessment (efficacy
analysis set; n=66)*
mGELF=modified Groupe d’Etude des Lymphomes Folliculaires. *95% CIs (represented as bars) were based on Kaplan–Meier estimates in the efficacy-evaluable
population. Analyses were done in subgroups with at least five patients. †Based on mGELF criteria, bulky disease was defined as any mass greater than 7 cm, or at
least three masses (each >3 cm) per investigator’s assessment.
neutropenia (50 [75%] of 67), and thrombocytopenia on day 47 and one event of T-cell lymphoma on day 32).
(26 [39%] of 67; table 2). The most common grade 3 or Lisocabtagene maraleucel transgene testing and
higher TEAEs were neutropenia (48 [72%] of 67), integration site analysis suggested that the T-cell
thrombocytopenia (14 [21%] of 67), and leukopenia lymphoma was not derived from CAR T cells.
(13 [19%] of 67). Grade 5 TEAEs occurred in Any-grade CRS occurred in 51 (76%) of 67 patients with
two (3%) of 67 patients (one event of neutropenic sepsis a median time to onset of 4 days (IQR 2–7) and median
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p 24). Of patients with grade 3 or higher cytopenia at day 29
Any grade Grade ≥3
and laboratory results available after day 29, most had
Any 67 (100%) 59 (88%) recovered to grade no more than 2 by day 90. Of patients
Most common (≥10% in any grade) with grade ≥3 cytopenia at day 90 and laboratory results
Cytokine release syndrome 51 (76%) 3 (4%) available after day 90, all recovered up to grade 2 by day 365
Neutropenia 50 (75%) 48 (72%) (table 3; appendix p 24). The proportion of patients with
Thrombocytopenia 26 (39%) 14 (21%) hypogammaglobulinaemia (serum IgG <500 mg/dL) did
Anaemia 21 (31%) 12 (18%) not change substantially over time, with an incidence of
Diarrhoea 19 (28%) 1 (1%) 24 (41%) of 59 at baseline, 35 (57%) of 61 at month 1, and
Hypokalaemia 16 (24%) 2 (3%) 21 (53%) of 40 at month 24 (appendix p 38).
Fatigue 15 (22%) 1 (1%) Nine (13%) of 67 patients received concomitant intravenous
Leukopenia 15 (22%) 13 (19%) IgG therapy. Grade 3 or higher infections were reported in
Headache 14 (21%) 1 (1%) 11 (16%) of 67 patients (six [9%] of 67 patients during the
Tremor 13 (19%) 0 treatment-emergent period and seven [10%] of 67 patients
Nausea 12 (18%) 1 (1%) during the post-treatment-emergent period). Second
Increased aspartate aminotransferase 9 (13%) 2 (3%) primary malignancies occurred in eight (12%) of 67 patients
Dizziness 8 (12%) 0 (appendix pp 25–27; four patients had non-melanoma skin
Hypophosphataemia 8 (12%) 3 (4%) cancer, two patients had acute myeloid leukaemia,
Lymphopenia 8 (12%) 7 (10%) one patient had myelodysplastic syndrome, and one patient
Increased alanine aminotransferase 7 (10%) 4 (6%) had T-cell lymphoma [mentioned above as grade 5 TEAE]);
Decreased appetite 7 (10%) 2 (3%) further details are reported in the appendix (p 25).
Pyrexia 7 (10%) 0 Macrophage activation syndrome–haemophagocytic
Hypotension 7 (10%) 0 lympho histiocytosis occurred in three (4%) of 67 patients;
all events were grade 3 and all resolved (appendix p 27).
Data are n (%). TEAE=treatment-emergent adverse event. *TEAE was defined as
One (1%) patient had grade 1 tumour lysis syndrome.
any adverse event that occurred from initiation of lisocabtagene maraleucel
infusion and up to 90 days after infusion. Any adverse event that occurred after Among 77 leukapheresed patients, 16 (21%) of 77 deaths
the initiation of another anticancer treatment was not considered a TEAE. occurred on-study; six deaths occurred before infusion
(among these six patients, four discontinued the study
Table 2: Most common TEAEs* (≥10%; lisocabtagene maraleucel–treated
analysis set; n=67) due to death [three due to disease progression and
one due to suicide] and two discontinued before death
[one due to disease progression and one due to worsening
time to resolution of 4 days (IQR 3–8; table 3); all CRS Eastern Cooperative Oncology Group performance
events resolved. 48 (72%) of 67 patients had grade 1 or 2 status]) and ten deaths occurred after CAR T-cell infusion
CRS (grade 1 31 [46%] of 67; grade 2 17 [25%] of 67). (two each due to MZL or complication due to MZL, new
Grade 3 CRS occurred in three (4%) of 67 patients and no malignancy or complication due to new malignancy,
grade 4 or 5 CRS occurred. CRS was managed with pneumonia, and COVID-19, and one each due to
tocilizumab alone in 20 (30%) of 67 patients, neutropenic sepsis and cardiac event; appendix p 28).
corticosteroids alone in two (3%) of 67, and both Among the 13 patients monitored in the outpatient
tocilizumab and corticosteroids in 17 (25%) of 67. setting, ten (77%) of 13 patients had CRS (all grade 1
Any-grade neurological events occurred in or 2), and six (46%) of 13 patients had neurological events
22 (33%) of 67 patients, with a median time to onset of (all grade 1 or 2). 11 (85%) of 13 patients were hospitalised
8·5 days (IQR 5–13) and median time to resolution of owing to adverse events. Median time from lisocabtagene
8 days (3–17); all neurological events resolved. maraleucel administration to first hospitalisation was
19 (28%) of 67 patients had grade 1 or 2 neurological 5 days (IQR 2–8) with a median duration of hospitalisation
events (grade 1 ten [15%] of 67; grade 2, nine [13%] of 67). of 7 days (4–8). No patients were admitted to the intensive
Grade 3 neurological events occurred in care unit.
three (4%) of 67 patients and no grade 4 or 5 events In the cellular kinetic set, lisocabtagene maraleucel
occurred (table 3). Neurological events were managed exhibited rapid expansion in 66 evaluable patients with
with corticosteroids in 14 (21%) of 67 patients and with median (IQR) time to maximum expansion of 10 days
anakinra in two (3%) of 67 patients. Among the 52 patients (10–13) after infusion (appendix p 29). Median (IQR)
who had CRS or neurological events, onset of the first maximum expansion in 66 evaluable patients was
event (CRS or neurological event) was within 15 days of 81 390 copies per µg (31 146–198 376) and median (IQR)
lisocabtagene maraleucel infusion for all patients. area under the curve from 0 to 28 days in 59 evaluable
Grade 3 or higher cytopenia at day 29 was reported in patients after infusion was 657 799 day*copies per µg
28 (42%) of 67 patients, including six (9%) of 67 with (213 897–1 579 477). Most patients (47 [71%] of 66 evaluable
anaemia, 18 (27%) of 67 with neutropenia, and patients) had B-cell aplasia at baseline. B-cell aplasia
17 (25%) of 67 with thrombocytopenia (table 3; appendix incidence increased to 63 (100%) of 63 patients 15 days
970
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after lisocabtagene maraleucel infusion, then decreased
Lisocabtagene
steadily from month 2, with an incidence of 48 (83%) of 58
maraleucel–treated
at month 6, 40 (67%) of 60 at month 12, 31 (61%) of 51 at analysis set (n=67)
month 18, and 26 (68%) of 38 at month 24 (appendix p 39).
CRS*
Among patients with available PRO data, completion
Any grade 51 (76%)
rates for both EORTC QLQ-C30 and FACT-LymS
Grade 1 31 (46%)
assessments were greater than 83% up to 18 months
Grade 2 17 (25%)
(appendix p 38). For EORTC QLQ-C30 primary domains,
Grade 3 3 (4%)
the mean baseline scores among patients analysed in this
Grade 4/5 0
study were generally similar to the EU general population
Time to first onset of CRS, days 4 (2–7)
mean scores, except for pain, which was lower. The mean
Time to resolution of first CRS, days 4 (3–8)
baseline scores were generally better than those of the US
Treatment for CRS
general population (appendix p 30). After an initial
Tocilizumab only 20 (30%)
transient deterioration between day 1 and day 15, the mean
Corticosteroids only 2 (3%)
scores on most EORTC QLQ-C30 primary domains of
Both tocilizumab and corticosteroids 17 (25%)
interest started to improve between day 15 and day 60
Tocilizumab or corticosteroids, or both 39 (58%)
(global health status–quality of life, role functioning, and
Neurological events†
pain) and between day 15 and day 90 (physical functioning
and fatigue) and were generally maintained throughout Any grade 22 (33%)
subsequent visits (appendix p 38). The mean changes in Grade 1 10 (15%)
these five domains exceeded the contemporary threshold Grade 2 9 (13%)
for clinically meaningful improvement at some visits. Grade 3 3 (4%)
Cognitive functioning remained stable, maintaining the Grade 4/5 0
high baseline score (appendix p 41). After a transient Time to first onset of neurological event, days 8·5 (5–13)
worsening between day 1 and day 15, the mean scores on Time to resolution of first neurological event, days 8 (3–17)
FACT-LymS also started to improve between day 15 and Treatment for neurological events
day 60 and remained consistent thereafter (appendix p 42). Corticosteroids only 14 (21%)
Tocilizumab alone or in combination with corticosteroids 0
Discussion Grade ≥3 cytopenia at day 29 visit‡ 28 (42%)
In this primary analysis of the MZL cohort of Recovered to grade ≤2 by day 90§ 21/28 (75%)
TRANSCEND FL, a single infusion of lisocabtagene Recovered to grade ≤2 by day 365§ 27/28 (96%)
maraleucel showed deep, durable responses in patients Grade ≥3 cytopenia at day 90 visit‡ 16 (24%)
with relapsed or refractory MZL after at least two previous Recovered to grade ≤2 by day 180§ 7/16 (44%)
lines of systemic therapy. The study’s primary and Recovered to grade ≤2 by day 365§ 16/16 (100%)
secondary ecacy endpoints were met. Second primary malignancy¶ 8 (12%)
Lisocabtagene maraleucel showed durable responses Grade ≥3 infection|| 11 (16%)
with high survival rates at 24 months; outcomes by best During the 90-day treatment-emergent period** 6 (9%)
overall response showed high survival rates in both During the post-treatment-emergent period†† 7 (10%)
patients who achieved complete response and those who
Macrophage activation syndrome–haemophagocytic lymphohistiocytosis (all 3 (4%)
achieved partial response per CT assessment. The clinical grade 3 and all resolved)
benefit of lisocabtagene maraleucel was observed across a Tumour lysis syndrome 1 (1%)
broad population, which included all three MZL subtypes. Infusion-related reaction 0
Although limited by the small number of patients in
Data are n (%), n/N (%), or median (IQR). CRS=cytokine release syndrome. *Graded according to the Lee 2014 criteria.21
certain subgroups, subgroup analyses showed consistent †Defined as investigator-identified neurological adverse events related to lisocabtagene maraleucel and graded per the
results with the overall population, including in subgroups National Cancer Institute Common Terminology Criteria for Adverse Events, version 5.0. ‡Grade 3 or higher laboratory
results based on local laboratory assessments of decreased haemoglobin, neutrophil, or platelet count at the day 29
by MZL subtype or high-risk features such as POD24,
(±2 days) or day 90 (±14 days) visit. §Recovery data are presented for patients with grade 3 or higher cytopenia at
refractory disease, or high tumour burden. Ecacy day 29 or day 90. ¶Including four patients with non-melanoma skin cancer, two patients with acute myeloid
outcomes were similar and consistently high regardless of leukaemia, one patient with T-cell lymphoma, and one patient with myelodysplastic syndromes. ||Some patients
timing of previous bendamustine exposure before might have grade 3 or higher infections in both treatment-emergent and post-treatment-emergent periods.
**Five patients had grade 3 infections: pneumonia, COVID-19 infection, sepsis, sinusitis, and staphylococcal sepsis
leukapheresis.
(n=1 each); all grade 3 infections resolved. One patient had grade 5 neutropenic sepsis (mentioned in manuscript as
The safety profile of lisocabtagene maraleucel was grade 5 treatment-emergent adverse event). ††Seven patients had nine events of grade 3 or higher infection:
manageable with low rates of grade 3 CRS and COVID-19 (n=4; including pneumonia [n=1]) and other pneumonia (n=5). All events resolved.
neurological events and no grade 4 or 5 CRS and
Table 3: Adverse events of special interest (lisocabtagene maraleucel–treated analysis set; n=67)
neurological events; no new safety signals emerged in the
MZL population.11–15,25–28 Although any-grade CRS was
commonly reported in the MZL patient population (76%);
the frequency of these events was within the variations
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observed with lisocabtagene maraleucel across indications FL), there was no upper age limit for enrolment and
(44% in large B-cell lymphoma, 59% in follicular 30% of lisocabtagene maraleucel–treated patients were
lymphoma, 61% in mantle cell lymphoma, and 85% in aged 70 years and older with an upper age range of
CLL–SLL). The incidence of CRS observed in MZL could 81 years. Furthermore, the median (range) of previous
be related to circulating disease, potentially in patients lines of therapy was 3 (2–12) in TRANSCEND FL, 2 (1–6)
with splenic MZL, similar to CLL–SLL. It is important to in MAGNOLIA, 1 (1–12) in AUGMENT, and 2 (1–8) in
note that rates of severe CRS were similar and consistently MAGNIFY, indicating that patients with MZL in the
low across the dierent indications, including MZL with TRANSCEND FL study were more heavily pretreated
three (4%) patients who had grade 3 CRS and no grade 4 than those in the other studies. Additionally, 39% patients
or 5 events. CRS and neurological events were managed in TRANSCEND FL were previously exposed to BTKi
by use of the protocol-specified and standard-of-care and 22% to R². ZUMA-5 was a single-arm, multicentre,
guidelines, and all events resolved. The rates of grade 3 or phase 2 study that evaluated axicabtagene ciloleucel in
higher infections (9% in the treatment-emergent period) patients with third-line or later relapsed or refractory
and grade 3 or higher cytopenias at day 29 (42%; most follicular lymphoma or MZL (nodal or extranodal).10,38 In
resolved by day 90) were similar to the incidences reported the 3-year follow-up of patients with relapsed or
with lisocabtagene maraleucel in other B-cell refractory MZL in ZUMA-5 (n=31; median age for MZL,
malignancies.11–16 Although 68% had B-cell aplasia at 64 years), the response assessment by investigator per
24 months and 53% of patients had hypo- PET–CT showed an overall response rate of 77% and CR
gammaglobulinaemia at 24 months, the rate of grade 3 or rate of 65% after a median follow-up of 32 months,10
higher infections was low (10% during the post-treatment- whereas in the MZL cohort of TRANSCEND FL, the
emergent period). The incidence of second primary overall response rate was 98% and complete response
malignancies (12%) was consistent with that published in rate was 91% in a post-hoc analysis based on investigator-
the general MZL population.29–32 assessed PET data. The 18-month rates of
This study also assessed PROs, including measures of progression-free survival and overall survival with
quality of life, disease-related symptoms, and functioning. axicabtagene ciloleucel in patients with MZL from
PRO completion rates were high during the 18-month ZUMA-5 were 43% and 83% per IRC, respectively,10 and
study visit. Following a transient decline immediately were 89% and 90% per IRC, respectively, with
after treatment, PRO scores were either maintained or lisocabtagene maraleucel in this study. In the MZL
showed improvement over time. Treatment with cohort of TRANSCEND FL, grade 3 CRS or neurological
lisocabtagene maraleucel was associated with sustained events occurred in 4% of patients each, with no grade 4
or enhanced quality of life over the 18-month period. or 5 events, whereas among patients with MZL in
These PRO findings oer valuable insight into patients’ ZUMA-5, grade 3 or higher CRS occurred in 8% of
direct experience with one-time lisocabtagene maraleucel patients, and grade 3 or higher NEs in 38%.38 The
treatment in relapsed or refractory MZL, mirroring the incidence of grade 3 or higher infection was 16% with
study outcomes showing clinical ecacy and manageable lisocabtagene maraleucel (treatment-emergent period,
safety. 9%; post-treatment-emergent period, 10%) versus 29%
Although direct cross-trial comparisons of ecacy and with axicabtagene ciloleucel, further underscoring the
safety are not feasible owing to variation in study design well established safety profile of lisocabtagene
and patient population, it is important to note certain maraleucel with low rates of severe infections in the
observations that underscore the high ecacy and low treatment emergent and post-treatment emergent
toxicity profile of lisocabtagene maraleucel in this study. periods.38
The ecacy observed with lisocabtagene maraleucel in We acknowledge that this study has some limitations.
patients with relapsed or refractory MZL is encouraging A single-arm, open-label design was used because of the
and appears to be substantially improved over that lack of established standard of care for patients with
shown by the currently approved therapies in this third-line or later relapsed or refractory MZL, the low
setting. In the MAGNOLIA study, the overall response incidence of MZL, and the high unmet need for
rate, complete response rate, and 2-year progression-free treatment in this setting. No prespecified criteria were
survival rate with zanubrutinib were 68%, 26%, and 71%, defined for race or ethnicity enrolment, and the majority
respectively.33,34 In the AUGMENT and MAGNIFY of patients for whom data are available were White.
studies, the overall response rate, complete response Subgroup analysis had low statistical power owing to the
rate, and median progression-free survival with R² were small number of patients in some subgroups. The H for
64%–65%, 29%–39%, and 20·2–41·2 months, overall response rate and complete response rate were
respectively.35–37 Although median age (62 years) in based on data from therapies available at the time that
TRANSCEND FL was somewhat younger than in studies the study was designed and initiated (July, 2020) before
with other agents for relapsed or refractory MZL (median results with zanubrutinib or R² became available.
age of 70 years in MAGNOLIA for MZL, 68 years in Nonetheless, as noted above, substantially higher overall
AUGMENT for MZL, 66 years in MAGNIFY for MZL or response rate, complete response rate, and
972
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progression-free survival were observed in our study Bristol Myers Squibb, C4 Therapeutics, Caribou Biosciences, Cellectar
compared with those reported for currently approved Biosciences, Century Therapeutics, EMD Serono, Epizyme, Foresight
Diagnostics, Genmab, Incyte, Interius Biotherapeutics, Janssen,
therapies in relapsed or refractory MZL. Additionally,
Karyopharm Therapeutics, Kite, Kymera Therapeutics, Lilly, MorphoSys,
there were high rates of ongoing responses (89%) and Mustang Bio, Novartis, Ono Pharmaceutical, Roche, SeaGen, EMD
progression-free survival (86%) with lisocabtagene Serono, and Takeda; honoraria from AbbVie, AstraZeneca, Bristol Myers
maraleucel at 24 months, whereas corresponding rates Squibb, Janssen, Kite, and Regeneron; and research funding via institution
from Bristol Myers Squibb, Cellectis, Merck, Mustang Bio, Regeneron, and
were 73% and 71% with zanubrutinib in the MAGNOLIA
SeaGen. KA discloses support for travel and attending meetings from
study (rates not reported in MAGNIFY and AUGMENT). Bristol Myers Squibb, Gilead, and Novartis. PB discloses institutional
However, longer follow-up will be needed to further grants from Incyte, Merck Sharp & Dohme, Miltenyi Biotec, and Takeda
evaluate response durability and survival outcomes in Oncology; consulting fees from Bristol Myers Squibb, Gilead, Merck Sharp
& Dohme, Miltenyi Biotec, Roche, and Takeda Oncology; honoraria from
this population with indolent lymphoma. The
AbbVie, AstraZeneca, BeiGene, Bristol Myers Squibb, Gilead, Incyte,
TRANSCEND FL study provides up to 5 years of Merck Sharp & Dohme, Miltenyi Biotec, Roche, and Takeda Oncology; and
follow-up after lisocabtagene maraleucel infusion and a support for travel and attending meetings from Bristol Myers Squibb,
separate long-term follow-up ancillary study will oer up Gilead, Incyte, Miltenyi Biotec, Roche, and Takeda Oncology.
BTH discloses consulting fees and research funding from Bristol Myers
to 15 years of follow-up.
Squibb. AMG-S discloses consulting fees from AbbVie, AstraZeneca,
TRANSCEND FL explored the ecacy and safety of Bristol Myers Squibb, Genmab, Gilead–Kite, GlaxoSmithKline,
CAR T-cell therapy in the largest cohort of patients with IDEOGEN, Incyte, Janssen, Lilly, Miltenyi Biotec, Regeneron, Roche, and
relapsed or refractory MZL. The primary analysis results Sobi; honoraria from AbbVie, AstraZeneca, BeiGene, Bristol Myers
Squibb, Gilead–Kite, IDEOGEN, Incyte, Janssen, Kyowa Kirin, Lilly,
of the MZL cohort from TRANSCEND FL show that a
Roche, Sobi, and Takeda; support for travel and attending meetings from
one-time infusion of lisocabtagene maraleucel is a highly AbbVie, Bristol Myers Squibb, Gilead–Kite, Lilly, and Roche; data safety
eective treatment option for patients with relapsed or monitoring or advisory board participation for AstraZeneca, Bristol Myers
refractory MZL, providing meaningful clinical benefit to Squibb, and Regeneron; and leadership or fiduciary role in other board,
society, committee or advocacy group, paid or unpaid, with the GELTAMO
a patient population with a high unmet need.
Foundation. GM discloses no conflict of interest. APR discloses data safety
Contributors monitoring board participation for National Heart, Lung and Blood
MLP, APS, and FM contributed to study concept or design and data Institute, Rapa Therapeutics, and University of Pennsylvania Abramson
acquisition. SJS, RK, JSA, KA, PB, BTH, AMG-S, APR, GC, IF, KI, MK, Cancer Center. GC discloses consulting fees for Bristol Myers Squibb,
SM, AMB, JLRO, GM, and SA contributed to data acquisition. LJN Mabqi, Onward Therapeutics, and Roche; honoraria from AbbVie,
contributed to study concept or design. MLP, APS, FM, MB, LD, UF, Janssen, Novartis, and Takeda; and support for travel and attending
VD, and JK contributed to data interpretation. MV, AA, RN, and SC meetings from Janssen and Roche. IF discloses consulting fees from
contributed to data analysis and data interpretation. MLP, MB, LD, UF, AbbVie, AstraZeneca, BeiGene, Bristol Myers Squibb, Incyte, Janssen,
VD, MV, AA, JK, RN, SC, and FM directly accessed and verified the data. Gilead–Kite, Merck, Novartis, Roche, SeaGen, and Takeda; speakers
All authors contributed to writing of the manuscript, approved the final bureaus from AbbVie, AstraZeneca, BeiGene, Bristol Myers Squibb,
version, and agree to be accountable for all aspects of the work. Incyte, Janssen, Gilead–Kite, Novartis, Roche, and SeaGen; and support for
travel and attending meetings from AbbVie, AstraZeneca, BeiGene,
Declaration of interests Gilead–Kite, Roche, and SeaGen. KI discloses consulting fees from
MLP discloses consulting fees from Bristol Myers Squibb, Kite, Novartis, AbbVie, AstraZeneca, BeiGene, Bristol Myers Squibb, Carna Biosciences,
and Synthekine; and data safety monitoring or advisory board participation Chugai, Eisai, Genmab, Kyowa Kirin, Merck Sharp & Dohme, Mitsubishi
for Bristol Myers Squibb and BeiGene. SJS discloses honoraria from Tanabe Pharma Corporation, Otsuka, Nippon Shinyaku, Novartis, Ono
Janssen and Novartis; consulting or advisory roles for AbbVie, Pharma, Symbio, Takeda, Yakult, and Zenyaku; honoraria from AbbVie,
AstraZeneca, BeiGene, BioNTech, Bristol Myers Squibb, Caribou Astellas, AstraZeneca, Bristol Myers Squibb, Chugai, Daiichi Sankyo,
Biosciences, Fate Therapeutics, Genentech, Genmab, Gilead–Kite, Incyte, Genmab, Gilead, Janssen, Kyowa Kirin, Lilly, Meiji Seika Pharma, Novartis,
Janssen, Legend Biotech, Loxo Oncology, MorphoSys, Mustang Biotech, Nihon Kayakueutical, Ono Pharma, Pfizer, SymBio, Takeda; and
Novartis, Regeneron, Roche, and viTToria Biotherapeutics; research institutional research funding from AbbVie, AstraZeneca, Bayer, BeiGene,
funding from AbbVie, Adaptive Biotechnologies, Bristol Myers Squibb, Bristol Myers Squibb, Chugai, Daiichi Sankyo, Genmab, Gilead, Incyte,
DTRM Biopharma, Genentech, Incyte, Merck, Novartis, Pharmacyclics, Janssen, Kyowa Kirin, LOXO Oncology, Merck Sharp & Dohme, Novartis,
and Roche; steering committee membership for Caribou Biotech and Otsuka, Pfizer, Regeneron, and Yakult. MK discloses consulting fees from
Novartis; and patents for Methods for Treating CLL (autologous AbbVie, AstraZeneca, Bristol Myers Squibb, BeiGene, and Genentech; and
co-stimulated T cells). RK discloses consulting fees from AbbVie, BeiGene, data safety monitoring board participation from Bristol Myers Squibb and
Bristol Myers Squibb, Genentech–Roche, Genmab, Gilead–Kite, Lilly Genentech. SM discloses support for the present manuscript from Bristol
Oncology, and Miltenyi Biotec; payment or honoraria for lectures, Myers Squibb; institutional grants or contracts from Gilead–Kite;
presentations, speakers bureaus, manuscript writing, or educational events honoraria from Bristol Myers Squibb, Janssen, and Novartis; data safety
for AstraZeneca, BeiGene, Bristol Myers Squibb, and Incyte–MorphoSys; monitoring board participation from Immunicum–Mendus and Miltenyi
data safety monitoring or advisory board participation for AvenCell Biotec; leadership or fiduciary role, paid or unpaid, for SWECARNET; and
Therapeutics and Calithera Biosciences; and committee or advocacy group other financial or non-financial interests from Scientify Research.
participation, paid or unpaid, for American Society of Hematology AMB discloses grants or contracts from Incyte, Pierre Fabre, and Roche.
committee on quality and ASCO National Comprehensive Cancer Network JLRO discloses consulting fees from Johnson & Johnson and Kite;
guideline committee for histiocytic disorders. APS discloses support for honoraria from Amgen, Bristol Myers Squibb, Johnson & Johnson, and
the current manuscript from Bristol Myers Squibb; consulting fees from Kite; and support for travel and attending meetings from Johnson &
AbbVie, Alexion, AstraZeneca, BeiGene, Bristol-Myers Squibb, Epizyme, Johnson. LJN discloses support for the present manuscript from Bristol
Genentech, Genmab, Jazz Pharmaceuticals, Janssen, Kite, Lilly, Myers Squibb; honoraria from AstraZeneca, Daiichi Sankyo, Genentech,
MorphoSys, Novartis, and SeaGen; honoraria from AbbVie, ADC Gilead–Kite, Incyte, Janssen, Merck, Novartis, Regeneron, and Takeda; and
Therapeutics, AstraZeneca, Bristol Myers Squibb, Genentech, Genmab, research support from Daiichi Sankyo, Genentech, Gilead–Kite, Incyte,
Janssen, Jazz Pharmaceuticals, Kite, Lilly, and SeaGen; and data safety Janssen, Novartis, and Takeda. SA discloses consulting fees from Gilead–
monitoring or advisory board participation for Alexion Pharmaceuticals Kite and Myeloid Therapeutics; honoraria from ADC Therapeutics,
and Bristol Myers Squibb. JSA discloses consulting fees from AbbVie, Genmab, and Gilead–Kite; and research funding from Chimagen
ADC Therapeutics, Alimera Sciences, AstraZeneca, BeiGene, bluebird bio,
Articles
Biosciences, Caribou Sciences, Genmab–Seattle Genetics, Janssen 15 Abramson JS, Palomba ML, Gordon LI, et al. Lisocabtagene
Oncology, Merck, and Nektar Therapeutics. MB, LD, UF, VD, MV, AA, JK, maraleucel for patients with relapsed or refractory large B-cell
RN, and SC disclose employment and stock ownership in Bristol Myers lymphomas (TRANSCEND NHL 001): a multicentre seamless
Squibb. FM discloses consulting fees from AbbVie, Bristol Myers Squibb, design study. Lancet 2020; 396: 839–52.
Gilead, Janssen, and Roche; honoraria from AstraZeneca, Chugai, and 16 Abramson JS, Solomon SR, Arnason J, et al. Lisocabtagene
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AstraZeneca, Miltenyi Biotec, ModeX Therapeutics, and Roche.
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Bristol Myers Squibb policy on data sharing can be found at https:// (liso-cel) in patients (pts) with relapsed or refractory (R/R) follicular
www.bms.com/researchers-and-partners/independent-research/data- lymphoma (FL): Transcend FL 2-year follow-up. Blood 2024;
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This study was funded by Celgene, a Bristol-Myers Squibb Company. interpreting change scores for the European Organisation for the
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Scientific and Editorial Services, at The Lockwood Group (Stamford, CT, 20 Hlubocky FJ, Webster K, Beaumont J, et al. A preliminary study of a
USA), funded by Bristol Myers Squibb. There was no patient or public health related quality of life assessment of priority symptoms in
involvement in the design, conduct (beyond study participation), or advanced lymphoma: the National Comprehensive Cancer Network-
reporting of this study. Functional Assessment of Cancer Therapy - Lymphoma Symptom
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DOI: 10.1016/S0140-6736(25)02435-3