Amylin and the renin-angiotensin system: risk or opportunity in amylin-based therapy?
Summary
Amylin and the renin-angiotensin system: risk or opportunity in amylin-based therapy? The Lancet 2025 Hypothesis Amylin and the renin-angiotensin system: risk or opportunity in amylin-based therapy? Marcel H A Muskiet, Massimo Nardone, Patrick C N Rensen, David Z I Cherney, Mark E Cooper Lancet 2025; 406: 2980–83 We hypothesise that amylin receptor agonists (eg, pramlintide) and dual amylin and calcitonin-receptor agonists Published Online (eg, cagrilintide), which are emerging treatments for ob
Content
# Amylin and the renin-angiotensin system: risk or opportunity in amylin-based therapy?
*The Lancet 2025*
Hypothesis
Amylin and the renin-angiotensin system: risk or
opportunity in amylin-based therapy?
Marcel H A Muskiet, Massimo Nardone, Patrick C N Rensen, David Z I Cherney, Mark E Cooper
Lancet 2025; 406: 2980–83 We hypothesise that amylin receptor agonists (eg, pramlintide) and dual amylin and calcitonin-receptor agonists
Published Online (eg, cagrilintide), which are emerging treatments for obesity and type 2 diabetes, can activate the renin-angiotensin
November 6, 2025 system (RAS) and potentially undermine the cardiorenal benefits of these therapies. Paradoxically, new-generation
https://doi.org/10.1016/ amylin-based therapies, such as CagriSema, showed substantial blood pressure reductions in phase 3 trials. Beyond
S0140-6736(25)01776-3
amylin’s weight loss-mediated effects, we hypothesise that concurrent use of RAS inhibitors (angiotensin-converting
Department of Internal
enzyme [ACE] inhibitors or angiotensin-receptor blockers) redirects amylin-induced RAS activation towards the
Medicine, Division of
Endocrinology, Leiden protective alternative RAS pathway, which is characterised by vasodilatory, anti-inflammatory, and antiproliferative
University Medical Center, effects via Mas receptors, potentially explaining part of their therapeutic benefit and cardioprotective and renoprotective
Leiden, Netherlands potential. To test this, we propose: (1) preclinical studies investigating amylin–RAS interactions with or without RAS
(M H A Muskiet MD PhD,
blockade; (2) post-hoc analyses of phase 2/3 trials stratified by RAS inhibitor use; (3) biomarker studies monitoring
Prof P C N Rensen PhD);
Diabetes Centre, Department renin, aldosterone, angiotensin-(1–7), and ACE2; and (4) mechanistic human studies prospectively assessing
of Internal Medicine, cardiovascular–kidney metabolic effects by RAS inhibitor status. These suggestions aim to determine whether RAS
Amsterdam University Medical inhibition enhances the overall efficacy of amylin-based therapies, and whether RAS blockers should be strongly
Center, Amsterdam,
recommended in patients receiving them.
Netherlands (M H A Muskiet);
Department of Medicine,
Division of Nephrology, Introduction The amylin revival
University Health Network, Obesity and type 2 diabetes are closely linked global Amylin receptors have recently reemerged as a proven
Toronto General Hospital
health crises that contribute to increasing rates of drug target in metabolic disease management.1 Amylin is
Research Institute, Toronto,
ON, Canada (M H A Muskiet, morbidity, mortality, and diminished quality of life (QOL), a 37amino acid neuropeptide and member of the
M Nardone PhD, with cardiovascular and kidney complications repre calcitonin peptide family that is cosecreted with insulin
Prof D Z I Cherney MD PhD); senting major drivers of this burden. The developm ent by pancreatic β cells in response to the intake of nutrients
Einthoven Laboratory for
of multihormone receptor modulators (MHRMs) such as glucose, arginine, and fatty acids. Amylin plays a
Experimental Vascular
Medicine, Leiden University represents a major therapeutic advance in the treatment key role in postprandial homoeostasis by indirectly
Medical Center, Leiden, of these metabolic diseases, offering clinically meaning suppressing glucagon secretion, delaying gastric
Netherlands ful weight loss and related benefits.1 These therapies emptying, and promoting satiety related to the control of
(Prof P C N Rensen);
typically combine central GLP1 receptor agonism with the intermeal interval.3–7 These effects are potentially
Department of Diabetes,
School of Translational agonism of other hormone receptors. MHRMs are mediated via amylinbinding sites that are broadly
Medicine, Monash University, administered as coformulations (eg, CagriSema) or distributed, including at least three fully assembled
Melbourne, VIC, Australia
unimolecular GLP1based constructs that incorporate functional amylinreceptors, each consisting of a
(Prof M E Cooper MD PhD)
one or more additional hormonepeptide epitopes, calcitonin receptor bound to one of the receptor activity
Correspondence to:
enabling the simultaneous activation—or, in some cases, modifying proteins 1–3 to yield the amylin receptors 1–3
Dr Marcel H A Muskiet,
Department of Internal inhibition—of hormone receptors (eg, tirzepatide, subtypes.3
Medicine, Division of maridebart cafraglutide, and retatrutide).1 Acting Although the therapeutic potential of amylin for
Endocrinology, Leiden University additively or synergistically, these hormones regulate diabetes was recognised as early as the 1980s—with
Medical Center, Leiden 2333 ZA,
appetite, energy expenditure, and other key pathways to salmon calcitonin as a dual amylin and calcitonin
Netherlands
m.h.a.muskiet@lumc.nl improve metabolic control, induce and sustain weight receptor agonist—clinical application of native amylin
loss, and potentially reduce complications, deliveri ng has been limited due to its short halflife, enzymatic
a level of therapeutic efficacy that increasingly instability, and tendency to form cytotoxic oligomers
approaches—and could eventually rival—that of bariatric and amyloid fibrils.3 These limitations were partly
surgery.1 Although the clinical development of MHRMs addressed by pramlintide, a firstinclass synthetic
has primary targeted metabolic conditions and outcomes, analogue of human amylin approved by the US Food
their benefits might extend beyond glycaemic control and Drug Administration in 2005 for use in type 1
and weight loss to include improvements in cardio diabetes and insulinrequiring type 2 diabetes.3
vascular and kidney outcomes, QOL, and potentially Pramlintide also showed weightlowering effects in
mortality. Although GLP1 receptor agonists have already both preclinical and clinical studies, prompting interest
shown these benefits,2 it remains to be seen whether in its use for obesity treatment, with observed weight
these benefits can fully translate to MHRMs, since their loss of approxi mately 5–7%.3 However, the potential of
additional hormone receptor modulators could pramlintide was limited by practical challenges, such as
theoretically amplify or dilute the effect through receptor the requirement for thricedaily injections and high
activity in tissues such as the heart, vasculature, cost, which ultimately halted further development in
and kidneys. this area.3
2980
Hypothesis
Building on this foundation, a new generation of long Evidence that amylin influences kidney physiology
acting amylin mimetics and agents derived from dates back to the 1990s.16,17 Amylin has been shown to
pramlintide or salmon calcitonin scaffolds is in increase renal blood flow and vascular conductance, likely
development, showing promise as effective weight loss via calcitonin receptors, and to act directly on proximal
therapies. The most advanced candidate, cagrilintide, tubules to stimulate sodium and water reabsorption.16,18–20
which is a nonselective dual amylin and calcitonin Notably, studies in rats and humans showed that
receptor agonist with receptor residence time similar to subcutaneous administration of amylin, at both
pramlintide, has shown positive phase 3 trial results and is physiological and supraphysiological doses, rapidly
expected to reach the market by 2026.8,9 Notably, increased plasma renin activity by up to 97% in humans
CagriSema, a once per week coformulation of cagrilintide and raised aldosterone concentrations by 62%, with a
(2·4 mg) and semaglutide (2·4 mg), showed statistically modest vasopressor response (ie, no blood pressure drop
significant greater weight loss (up to –20·4% in individuals that would trigger renin release).18,20,21 These effects were
with overweight or obesity without type 2 diabetes) and blocked by amylin receptor antagonists, suggesting
improved glycaemic control (HbA₁ reductions up to mediation via an amylinlike receptor,18 possibly via cyclic
c
–2·0% in those with type 2 diabetes) compared with either adenosine monophosphatedependent pathways.22 The
agent alone, as shown in both phase 2 and phase 3 clinical response was not inhibited by propranolol, suggesting
trials, suggesting additive and potentially synergistic that the response occurs independently of sympathetic
effects.8–10 In addition, amycretin, which is a dual GLP1 nervous system activation.18 Similarly, shortterm infusion
and amylin receptor agonist delivered orally11 or of salmon calcitonin in humans has been shown to
subcutaneously,12 has shown promising weight loss and elevate plasma renin activity, aldosterone levels, and
metabolic benefits in early phase 1/2 trials,13 and other serum angiotensinconverting enzyme (ACE).17 Whether
amylinbased candidates (eg, eloralintide and AZD6234) dual amylin and calcitonin receptor agonists differ from
are also currently in early clinical development, amylin monoreceptor agonists in their capacity to
highlighting an expanding pipeline of therapies in this activate the RAS remains unknown.
reemerging field.1,3
Amylin-based therapies and RAS blockade
Amylin and the RAS Collectively, the above findings suggest that both amylin
Amylin receptor agonists exhibit independent systemic receptor agonists and dual amylin and calcitonin receptor
effects that extend beyond metabolic regulation and agonists can activate the RAS, potentially promoting
weight loss. Amylinbinding sites have been identified sodium retention, hypertension, vascular stiffness, and
across multiple organs and tissues, including the fibrosis, all of which could be detrimental to
cardiovascular and renal systems, with the distribution of cardiovascular and kidney health. In this context, it is
fully assembled receptors (calcitonin receptor and notable that subcutaneous amycretin,12 unlike the oral
receptor activity modifying proteins heterodimers) yet to formulation,11 did not lower blood pressure despite
be comprehensively mapped. This finding supports a clinically and statistically significant weight loss—an
growing body of evidence for the potential direct observation that might reflect the small sample size of
involvement of amylin receptor agonists in cardiorenal the phase 1b/2a trial or the low baseline systolic pressure
physiology and the pharmacological impact of their (<120 mm Hg), but which warrants further investigation,
activation.3 Further research is needed to delineate which including potential RASactivating mechanisms.
of these effects are physiologically significant under Pramlintide does not appear to statistically significantly
typical conditions, how they are modified in pathological affect blood pressure, although available data are sparse.
states, and to what extent they reflect pharmacological However, this appears to contradict the substantial blood
actions resulting from supraphysiological concentrations pressure reductions reported in clinical trials with
of exogenously administered amylin. CagriSema, which have shown systolic blood pressure
One particularly relevant system is the renin drops of up to 10·9 mm Hg in the REDEFINE1 trial.10
angiotensin system (RAS), which is a key regulator of What might explain this paradox? In addition to the
blood pressure, fluid balance, and vascular tone. There is significant weight loss reached by CagriSema, which
considerable interest in the effects of nutrientstimulated likely contributes to sustained blood pressure reduction,
hormones on kidney physiology—referred to as the gut– a potential contributing factor could be a modifying
kidney axis14—which could have evolved to maintain effect of concurrent RAS inhibitor use. RAS inhibitors
postprandial homoeostasis and optimise the excretion of could redirect amylininduced RAS activation towards
excess solutes and metabolic waste by modulating kidney the socalled alternative RAS pathway (figure). When the
haemodynamic and tubular function. Previously, we classic RAS pathway is inhibited (by ACE inhibitors or
proposed that GLP1 acts as a mediator of the gut–kidney angiotensinreceptor blockers; ARBs), angiotensin I and
axis, contributing to natriuresis via putative sodium/ angiotensin II are increasingly converted by ACE2 and
hydrogen exchanger 3 inhibition14 in the proximal tubule neutral endopeptidase into angiotensin(1–7), which
and modulating the RAS pathway.14,15 exerts vasodilatory, antiinflammatory, and antifibrotic
Hypothesis
Classic RAS pathway
Angiotensinogen
Amylin-based therapy Renin
Alternative RAS pathway
Angiotensin I ACE2 Angiotensin (1–9)
Neutral
ACE inhibitor ACE endopeptidase ACE ACE inhibitor
Angiotensin II ACE2 Angiotensin (1–7)
ARB
AT receptor AT receptor Mas receptor
1 2
Vasoconstriction Vasodilation Vasodilation
Sodium retention Sodium excretion Sodium excretion
Proliferation Antiproliferation Antiproliferation
Inflammation Antihypertrophy Antiarrhythmic
Oxidative stress Anti-inflammation Cardiac remodelling
Aldosterone secretion Positive inotropic
Renin inhibition
Potential cardio–kidney protection
Figure: Rationale for the potential benefit of combining amylin-based therapies with RAS inhibitors
Combining amylin receptor agonists with ACE inhibitors or ARBs could improve cardiovascular and kidney outcomes by shifting RAS activity towards the increased
stimulation of protective pathways such as the alternative RAS pathway involving AT and Mas-receptors. ACE=angiotensin-converting enzyme. ARB=angiotensin
receptor blocker. AT1=type 1 angiotensin II receptor. AT2=type 2 angiotensin II receptor. RAS=renin-angiotensin system.
effects via the Mas receptor.23,24 In this context, amylin that RAS inhibitor use was not reported in the current
induced RAS activation could be repurposed into a REDEFINE publications.10,8 In REDEFINE1, only
protective mechanism under RAS blockade. If this 36·3% of participants had hypertension,10 and neither
hypothesis is confirmed, the potential cardiorenal phase 3 trial of CagriSema10,8 provided details on
benefits of amylinbased therapies could be influenced antihypertensive therapy or other common indications
by patients’ concurrent use of RAS inhibitors. This for RAS inhibitors (eg, chronic kidney disease or heart
hypothesis raises an important translational question: failure), limiting the feasibility and relevance of evaluating
are these therapies effects reliant on or enhanced by this interaction. Biomarker studies tracking plasma renin
ongoing RAS blockade? activity, aldosterone, angiotensin(1–7), and ACE2 over
To investigate this, we propose several approaches. time could offer further insight. Mechanistic trials could
Where possible, these experimental approaches should prosp ectively randomly assign patients based on RAS
include appropriate controls for changes in bodyweight inhibitor use to assess whether RAS blockade modifies or
and glycaemia (eg, metabolic surgery) to distinguish mediates therapeutic effects—including systemic and
primary from secondary effects of amylin receptor potentially complex kidney haemodynamic responses—
agonists on the RAS. Preclinical studies should examine which is key for highrisk populations where RAS
how amylin signalling interacts with classic and blockade is recommended but not always implemented
alternative RAS pathways in the heart and kidneys, in clinical practice.
measuring outcomes such as fibrosis, hypertrophy,
proteinuria, and glomerular injury in amylintreated Conclusion
models with and without RAS inhibition. Clinically, Amylinbased therapies represent a promising new drug
posthoc analyses of clinical trials involving CagriSema class for obesity and type 2 diabetes care. Understanding
and other amylinbased therapies—many of which are the interaction of amylinbased therapies with the RAS
still in earlyphase clinical development25 and will likely and how this might be modulated by existing RAS
be tested across diverse patient cohorts—should stratify inhibitor therapy could be pivotal in optimising the safety
participants by RAS inhibitor use to assess whether and efficacy of amylinbased treatments. We believe that
patients who are receiving ACE inhibitors or ARBs this is a crucial and timely hypothesis that is deserving of
experience greater improvements in blood pressure, targeted exploration in both preclinical and clinical
albuminuria, estimated glomerular filtration rate domains, with the potential to refine treatment guidelines
trajectories, and cardiovascular–kidney events. We note by labelling RAS inhibitor and amylinbased therapies as
2982
Hypothesis
exploratory combination therapy needing further study, 11 Gasiorek A, Heydorn A, Gabery S, et al. Safety, tolerability,
which prioritises precisionbased combination therapy pharmacokinetics, and pharmacodynamics of the firstinclass
GLP1 and amylin receptor agonist, amycretin: a firstinhuman,
approaches and minimises polypharmacy to reduce
phase 1, doubleblind, randomised, placebocontrolled trial. Lancet
complexity, cost, and adverse effects. 2025; 406: 135–48.
12 Dahl K, Toubro S, Dey S, et al. Amycretin, a novel, unimolecular
Contributors
GLP1 and amylin receptor agonist administered subcutaneously:
MHAM and MEC conceived and developed the central hypothesis and results from a phase 1b/2a randomised controlled study. Lancet
overall direction of the manuscript. MHAM drafted the initial version 2025; 406: 149–62.
and created the figure. MN, PCNR, DZIC, and MEC contributed to the 13 Khoo B, Tan TM. GLP1 and amylin receptor multiagonism with
critical discussion, refinement of the hypothesis, and manuscript amycretin for obesity management. Lancet 2025; 406: 104–06.
revisions. All authors reviewed and approved the final manuscript. 14 Muskiet MHA, Tonneijck L, Smits MM, et al. GLP1 and the kidney:
Declaration of interests from physiology to pharmacology and outcomes in diabetes.
Nat Rev Nephrol 2017; 13: 605–28.
MHAM has received consulting fees to their institution from
AstraZeneca, Bayer, Boehringer Ingelheim, Eli Lilly, and Novo Nordisk. 15 Tonneijck L, Muskiet MH, Smits MM, van Raalte DH, Diamant M.
Combining incretinbased drugs and RAAS inhibitors: more cons
PCNR has received consulting fees from Novo Nordisk and MSD; and has
than pros? Lancet Diabetes Endocrinol 2014; 2: 684–85.
received research grants from Eli Lilly (payments to their institution).
16 Wookey PJ, Xuereb L, Tikellis C, Cooper ME. Amylin in the
DZIC has received consulting fees, speaking honoraria, or both from
periphery. ScientificWorldJournal 2003; 3: 163–75.
Janssen, Bayer, Boehringer Ingelheim, Eli Lilly, AstraZeneca, Merck,
17 Malatino LS, Fiore CE, Foti R, Guzzardi F, Tamburino G. Acute
Prometic, and Sanofi; and has received operating funds from Janssen,
effects of salmon calcitonin in man include stimulation of the
Boehringer Ingelheim, Eli Lilly, Sanofi, AstraZeneca, and Merck.
reninangiotensinaldosterone system. Miner Electrolyte Metab 1987;
MEC has received consulting fees and speaking honorarium from Novo
13: 316–22.
Nordisk. MN declares no competing interests.
18 Young A. Renal effects. Adv Pharmacol 2005; 52: 251–68.
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DOI: 10.1016/S0140-6736(25)01776-3