Amylin and the renin-angiotensin system: risk or opportunity in amylin-based therapy?
This paper presents a hypothesis-generating perspective piece examining the potential interaction between amylin-based therapies — including the pramlintide and cagrilintide receptor agonists, and the combination therapy CagriSema — and the renin-angiotensin system (RAS). The authors hypothesize that amylin receptor agonists may activate the RAS, which could potentially counteract the cardiorenal benefits of these obesity and type 2 diabetes treatments. However, they note the paradox that CagriSema demonstrated meaningful blood pressure reductions in phase 3 trials. The authors further hypothesize that concurrent use of RAS inhibitors (ACE inhibitors or angiotensin-receptor blockers) may redirect amylin-induced RAS activation toward the protective "alternative RAS pathway," promoting vasodilatory, anti-inflammatory, and antiproliferative effects via Mas receptors. To test these hypotheses, the authors propose a research agenda encompassing preclinical studies, post-hoc trial analyses stratified by RAS inhibitor use, biomarker studies, and prospective mechanistic human studies. No original experimental data are presented. Key limitations include the entirely speculative nature of the central claims, the absence of direct supporting evidence, and reliance on inference from existing trial-level observations.
Why this grade: This is a hypothesis/perspective piece with no original experimental data; all central claims are speculative and proposed for future investigation rather than empirically tested.
We hypothesise that amylin receptor agonists (eg, pramlintide) and dual amylin and calcitonin-receptor agonists (eg, cagrilintide), which are emerging treatments for obesity and type 2 diabetes, can activate the renin-angiotensin system (RAS) and potentially undermine the cardiorenal benefits of these therapies. Paradoxically, new-generation amylin-based therapies, such as CagriSema, showed substantial blood pressure reductions in phase 3 trials. Beyond amylin's weight loss-mediated effects, we hypothesise that concurrent use of RAS inhibitors (angiotensin-converting enzyme [ACE] inhibitors or angiotensin-receptor blockers) redirects amylin-induced RAS activation towards the protective alternative RAS pathway, which is characterised by vasodilatory, anti-inflammatory, and antiproliferative effects via Mas receptors, potentially explaining part of their therapeutic benefit and cardioprotective and renoprotective potential. To test this, we propose: (1) preclinical studies investigating amylin-RAS interactions with or without RAS blockade; (2) post-hoc analyses of phase 2/3 trials stratified by RAS inhibitor use; (3) biomarker studies monitoring renin, aldosterone, angiotensin-(1-7), and ACE2; and (4) mechanistic human studies prospectively assessing cardiovascular-kidney metabolic effects by RAS inhibitor status. These suggestions aim to determine whether RAS inhibition enhances the overall efficacy of amylin-based therapies, and whether RAS blockers should be strongly recommended in patients receiving them.
Educational summary of published research — not medical advice. Full text is shown only where licensing permits.