Single-cell imaging analysis, therapeutic modeling and a Phase Ib trial validate BCL-2 as a target across heterogeneous castration-resistant prostate cancer
Summary
BCL-2 has been implicated in prostate cancer (PCa) progression and development of castration-resistant disease (CRPC); however, it remains unclear how the BCL-2- and AR-expressing PCa cell populations evolve across the PCa continuum, how AR molecularly regulates BCL-2 and whether BCL-2 represents a common therapeutic target in heterogeneous CRPC. Here we first show the selective induction of BCL-2 by AR pathway inhibitors (ARPIs). Vectra-based quantitative multiplex immunofluorescence (qmI
Content
# Single-cell imaging analysis, therapeutic modeling and a Phase Ib trial validate BCL-2 as a target across heterogeneous castration-resistant prostate cancer
*Published: 2026 May 1*
BCL-2 has been implicated in prostate cancer (PCa) progression and development
of castration-resistant disease (CRPC); however, it remains unclear how the
BCL-2- and AR-expressing PCa cell populations evolve across the PCa continuum,
how AR molecularly regulates BCL-2 and whether BCL-2 represents a common
therapeutic target in heterogeneous CRPC. Here we first show the selective
induction of BCL-2 by AR pathway inhibitors (ARPIs). Vectra-based quantitative
multiplex immunofluorescence (qmIF) and image mass cytometry (IMC) analyses with
single-cell resolution in patient PCa and xenograft models reveal markedly
increased BCL-2+ (AR+ or AR-) PCa cells in CRPC. Mechanistically, AR represses
BCL-2 transcription through several AR binding sites and ARPIs relieve this
repression. Therapeutic studies in cells, organoids and xenografts support BCL-2
as a shared vulnerability across diverse CRPC subtypes. A Phase Ib clinical
trial (NCT03751436) combining enzalutamide and BCL-2 inhibitor venetoclax
demonstrated reduced circulating tumor cells in responding patients. In summary,
by integrating high-content single-cell level imaging analyses with mechanistic
studies, extensive preclinical therapeutic experiments and a Phase Ib clinical
trial, our studies herein elucidate the AR+/-BCL-2+/- PCa cell subpopulation
dynamics and credentials BCL-2 as a vital therapeutic target in heterogeneous
CRPC.
DOI: 10.1038/s41392-026-02700-w