Warenkorb
0.00 €BPC-157
10 mg98.5% purityLot #BPC157-2026-001
Art.-Nr. der gewählten Abmessung: PEP-BPC157-10MG
BPC-157 (Body Protection Compound-157) is a synthetic pentadecapeptide made up of 15 amino acids and originates from a naturally occurring protective protein present in human gastric juice. It was first identified during investigations into the cytoprotective properties of gastric secretions and has since become one of the most researched regenerative peptides in preclinical science, with more than 100 published studies.
Its biological activity involves several interconnected mechanisms, including activation and upregulation of VEGFR2 (vascular endothelial growth factor receptor), increased production of nitric oxide (NO), and regulation of the FAK-paxillin signaling pathway. Through these actions, BPC-157 supports angiogenesis, improves tissue remodeling, and accelerates the repair of damaged structures.
€114.68inkl. MwSt.
✅ auf Lager (40)
Mengenpreise
| Menge | Stückpreis | Ersparnis |
|---|---|---|
| 1 vial | 114.68 € | — |
| 3 vials (−7%) | 106.14 € | −7% |
| 5 vials (−12%) | 101.26 € | −12% |
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Forschungsprofil
BPC-157 — wissenschaftliches Profil
Inhalt dient Bildungs- und Forschungszwecken. Research Use Only.
- BPC-157 (Body Protection Compound-157) is a synthetic pentadecapeptide made up of 15 amino acids and originates from a naturally occurring protective protein present in human gastric juice. It was first identified during investigations into the cytoprotective properties of gastric secretions and has since become one of the most researched regenerative peptides in preclinical science, with more than 100 published studies.
- Its biological activity involves several interconnected mechanisms, including activation and upregulation of VEGFR2 (vascular endothelial growth factor receptor), increased production of nitric oxide (NO), and regulation of the FAK-paxillin signaling pathway. Through these actions, BPC-157 supports angiogenesis, improves tissue remodeling, and accelerates the repair of damaged structures.
- Research published in Current Pharmaceutical Design and Journal of Physiology-Paris has demonstrated its ability to reduce tissue injury caused by NSAIDs, alcohol, and various toxic compounds, while also supporting tendon-to-bone integration, gastrointestinal protection, and peripheral nerve regeneration.
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