AOD-9604vsCagrilintide

AOD-9604 is a modified fragment of human growth hormone comprising amino acids 176-191 with an additional tyrosine residue at the N-terminus. This specific region of the GH molecule contains the lipolytic (fat-burning) domain while lacking the receptor binding regions responsible for growth-promoting and diabetogenic effects. The result is a peptide that mimics the fat metabolism effects of growth hormone without stimulating IGF-1 production, bone growth, or insulin resistance.

The primary mechanism involves stimulation of beta-3 adrenergic receptors on adipocytes, which activates hormone-sensitive lipase (HSL) through a cAMP-dependent pathway. HSL catalyzes the hydrolysis of stored triglycerides into free fatty acids and glycerol, which are then released into the bloodstream for oxidation by muscle and liver tissue. Simultaneously, AOD-9604 appears to inhibit lipogenesis — the synthesis of new fatty acids from non-lipid precursors — by downregulating acetyl-CoA carboxylase and fatty acid synthase activity in adipocytes.

Unlike full-length growth hormone, AOD-9604 does not bind to the GH receptor or stimulate JAK2/STAT5 signaling, which is why it avoids the IGF-1 elevation, water retention, and insulin resistance associated with exogenous GH use. However, it should be noted that AOD-9604 failed to show significant weight loss compared to placebo in Phase II/III clinical trials, raising questions about whether its in vitro lipolytic activity translates to meaningful clinical effects at the doses tested.

Cagrilintide is a long-acting analogue of amylin, a 37-amino-acid peptide hormone naturally co-secreted with insulin from pancreatic beta cells after meals. Native amylin plays a crucial but often overlooked role in metabolic regulation — it signals satiety, slows gastric emptying, and suppresses post-meal glucagon secretion through mechanisms entirely distinct from the GLP-1 pathway.

Cagrilintide activates amylin receptors, which are heterodimeric complexes formed by the calcitonin receptor (CTR) paired with receptor activity-modifying proteins (RAMP1, RAMP2, or RAMP3). These receptors are concentrated in the area postrema and the nucleus tractus solitarius in the brainstem — regions outside the blood-brain barrier that can directly sense circulating peptides. Activation of these neurons triggers ascending satiety signals to the hypothalamus, reducing meal size and food-seeking behavior through pathways that are neuroanatomically separate from GLP-1 signaling.

This distinct mechanism is why cagrilintide produces additive appetite suppression when combined with semaglutide (as CagriSema) — the two peptides target different populations of neurons within the brain's appetite control circuitry. Cagrilintide has been engineered with acylation modifications that enable albumin binding, extending its half-life from minutes (native amylin) to approximately one week, making it suitable for weekly subcutaneous dosing.