BRP (BRINP2-Related Peptide)

Overview

BRP (BRINP2-Related Peptide) is a naturally occurring 12-amino acid peptide discovered in 2025 by Stanford researchers led by Dr. Katrin Svensson using an AI algorithm called 'Peptide Predictor' that scanned more than 2,600 previously uncharacterized proteolytic fragments generated by prohormone convertase 1/3 (PCSK1). The peptide is cleaved from the parent protein BRINP2 (BMP/retinoic acid-inducible neural-specific protein 2) and is endogenously present in human plasma and cerebrospinal fluid. Published in Nature (March 5, 2025, doi: 10.1038/s41586-025-08683-y), BRP reduces food intake by up to 50% within an hour and drives fat-specific weight loss in obese mice without nausea, muscle loss, or digestive effects. Its mechanism is entirely distinct from GLP-1/semaglutide pathways, acting centrally in the hypothalamus via POMC neurons and cAMP-PKA-CREB-FOS signaling. Merrifield Therapeutics is advancing BRP toward clinical trials.

Mechanism of Action

BRP activates pro-opiomelanocortin (POMC) neurons in the hypothalamus via cAMP-PKA-CREB-FOS signaling, independent of GLP-1, leptin, and MC4R pathways. Its hypothalamic-centric mechanism directly suppresses appetite without affecting peripheral organ systems, eliminating the nausea, constipation, and muscle loss associated with GLP-1 agonists. The peptide requires C-terminal amidation and an intact leucine at position 8 for activity.

Potential Benefits

• Up to 50% reduction in food intake within 1 hour (mice and minipigs)
• Fat-specific weight loss: obese mice lost 3g fat over 14 days vs. controls gaining 3g
• Preserved lean muscle mass — no muscle loss observed
• Improved glucose tolerance and insulin sensitivity
• Reduction in liver fat and white adipose tissue weight
• No nausea, constipation, or GI motility changes
• No effects on anxiety, locomotion, or water intake
• Detectable in human cerebrospinal fluid and plasma — endogenous human peptide
• 10x more potent than GLP-1 in hypothalamic neuronal activation assays
• Acts through novel hypothalamic pathway — potentially additive with GLP-1 drugs

Research Dosage Notes

The following reflects doses used in published research studies. This is not medical advice.

Consult published research literature for study-specific protocols.

Routes of Administration

Read our full Routes of Administration Guide for detailed comparison of all delivery methods.

Reconstitution

Typical vial sizes: 5 mg. Add bac water slowly down the side of the vial, swirl gently — do not shake. Use insulin syringe for precise dosing.

Amino Acid Sequence

Side Effects & Safety

• No adverse effects detected in animal models at therapeutic doses
• No nausea, constipation, or GI motility changes
• No changes in locomotion, anxiety-like behavior, or water intake
• No impact on lean body mass
• Long-term human safety data not yet available (pre-clinical stage)
• Immunogenicity potential unknown in humans

Pharmacokinetics

Synergistic Compounds

The following compounds have been studied alongside BRP (BRINP2-Related Peptide) for potential complementary or synergistic effects:

Related Peptides

Learn More

References & Further Reading

• Prohormone cleavage prediction uncovers a non-incretin anti-obesity peptideCoassolo L, Svensson KJ, et al.. Nature. 2025
• PubMed: Prohormone cleavage prediction uncovers a non-incretin anti-obesity peptideCoassolo L, et al.. Nature. 2025
• Stanford Medicine News: Naturally occurring molecule rivals Ozempic in weight lossStanford Medicine. Stanford Medicine News Center. 2025
• OR35-08 Prohormone cleavage prediction — Endocrine Society 2025Coassolo L et al., Stanford University. Journal of the Endocrine Society. 2025
• ScienceDaily: Stanford scientists discover 'natural Ozempic' without side effectsScienceDaily. ScienceDaily. 2026
• Brinp2-derived peptide compositions for treating obesity — Patent AU2023316958A1Google Patents. Google Patents. 2025