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Alpha-MSH

Also known as: α-MSH, Alpha-Melanocyte-Stimulating Hormone

The body's natural melanocortin hormone — central to skin pigmentation, inflammation, and appetite — and the biology that synthetic analogs like melanotan and bremelanotide (PT-141) are designed to imitate.

Researched & fact-checked by the Peptide Almanac Editorial Team · Last updated

6 cited sources Status: see guide No dosing advice How we research & review →

Quick facts

Class
Endogenous melanocortin peptide
Roles
Pigmentation, inflammation, appetite, sexual function
Acts on
Melanocortin receptors (MC1R–MC5R)
Analogs
Afamelanotide, melanotan, bremelanotide (PT-141)
Approval
Endogenous hormone; its drug analogs are regulated separately
Derived from
Pro-opiomelanocortin (POMC)
Receptors
Melanocortin receptors MC1R–MC5R
Educational summary only — not medical advice. Alpha-MSH is not an approved medicine for general use. Evidence is limited and does not establish human safety or efficacy.

Key takeaways

  • Alpha-MSH is the body's natural melanocortin hormone, cleaved from the precursor POMC.
  • It drives skin pigmentation (via MC1R) and has broad anti-inflammatory roles.
  • Through MC4R it influences appetite and sexual function — the pathway PT-141 targets.
  • The well-known synthetic peptides — afamelanotide, melanotan, and PT-141 — are analogs of it.
  • It is an endogenous hormone, not a marketed drug in itself.

Overview

Alpha-melanocyte-stimulating hormone (α-MSH) is a natural peptide hormone, cleaved from the precursor protein POMC, that acts across a family of melanocortin receptors. It is the endogenous signal that the well-known synthetic peptides imitate — afamelanotide (Melanotan I), Melanotan II, and PT-141 (bremelanotide) are all melanocortin analogs.[2]

How it works

  • Pigmentation. Acting on the MC1R receptor in skin, α-MSH stimulates melanin production — the basis of tanning biology.[2]
  • Anti-inflammation. It has broad anti-inflammatory and protective actions across many tissues, including the eye and skin.[1][5]
  • Appetite & sexual function. Through central melanocortin receptors (notably MC4R), the system influences appetite and sexual response — the pathway PT-141 targets.[4]

Research & benefits

α-MSH is a long-standing research subject rather than a marketed product. Studies span its role in pigmentation and the pleiotropic effects of the α-MSH/MC1R interaction beyond skin color,[2] its non-pigmentary anti-inflammatory actions in the skin,[5] the multifunctional ocular melanocortin system,[1] and the underlying signalling mechanisms.[4] Practically, its importance for most readers is as the biology behind the melanocortin drugs — the tanning and sexual-desire analogs derived from it.[3]

Safety & status

α-MSH itself is an endogenous hormone, not a sold product, so the practical safety considerations attach to its synthetic analogs — see the afamelanotide, Melanotan II, and PT-141 guides, which range from an FDA-approved drug to an unapproved tanning chemical. Alpha-MSH is not itself marketed as an approved therapy.

Frequently asked questions

What is alpha-MSH?

Alpha-MSH (alpha-melanocyte-stimulating hormone) is a natural melanocortin peptide hormone derived from POMC. It drives skin pigmentation, has anti-inflammatory roles, and influences appetite and sexual function through melanocortin receptors.

How is alpha-MSH related to melanotan and PT-141?

Melanotan I (afamelanotide), Melanotan II, and PT-141 (bremelanotide) are all synthetic analogs of alpha-MSH — engineered melanocortin agonists designed to imitate or refine its natural effects on pigmentation and sexual desire.

Can you buy alpha-MSH?

Alpha-MSH itself is an endogenous hormone rather than a marketed product; the practical considerations attach to its drug analogs, which range from an FDA-approved implant (afamelanotide) to an unapproved tanning chemical (Melanotan II).

References

Each source links to its original record — peer-reviewed studies, regulator pages, or reference texts, labelled by type. We summarize findings neutrally; a citation is a reference, not an endorsement, and not a claim that its authors reviewed this page.

  1. Wu CS, Cioanca AV, Gelmi MC, et al. The multifunctional human ocular melanocortin system. Prog Retin Eye Res. 2023. Peer-reviewed study
  2. Herraiz C, Martínez-Vicente I, Maresca V. The alpha-melanocyte-stimulating hormone/melanocortin-1 receptor interaction: A driver of pleiotropic effects beyond pigmentation. Pigment Cell Melanoma Res. 2021. Peer-reviewed study
  3. Takeuchi S, Takahashi S, Okimoto R, et al. Avian melanocortin system: alpha-MSH may act as an autocrine/paracrine hormone. Ann N Y Acad Sci. 2003. Peer-reviewed study
  4. Eves PC, Haycock JW. Melanocortin signalling mechanisms. Adv Exp Med Biol. 2010. Peer-reviewed study
  5. Böhm M, Schiller M, Luger TA. Non-pigmentary actions of alpha-melanocyte-stimulating hormone — lessons from the cutaneous melanocortin system. Cell Mol Biol. 2006. Peer-reviewed study
  6. Suominen A, Saldo Rubio G, Ruohonen S, et al. α-Melanocyte-stimulating hormone alleviates pathological cardiac remodeling via melanocortin 5 receptor. EMBO Rep. 2024. Peer-reviewed study
Related guides: GHK-Cu · PT-141 · Melanotan II · All Skin & Cosmetic peptides →

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