Molecular Weight: 1419.56 Da | 15 Amino Acids | Form: Lyophilized | Purity: 99%+ HPLC
BPC-157 is a synthetic pentadecapeptide (15 amino acids) originally identified from a protective protein in human gastric juice. In preclinical and in-vitro research, BPC-157 is documented for stimulating fibroblast activity, extracellular-matrix production, and angiogenesis — making it one of the most widely used compounds in tissue-repair, tendon/ligament, and gastrointestinal-tract research. Each vial contains 10mg of lyophilized BPC-157 at 99%+ HPLC-verified purity, with a batch-specific Certificate of Analysis available for download. *
BPC-157
Body Protection Compound
Mechanism of Action• Fibroblast Activation: Stimulates fibroblast proliferation, ECM production (collagen, fibrin, elastin), and migration of repair cells to wound sites.
• Angiogenesis (VEGFR2): Interacts with VEGFR2 to promote new capillary formation and nitric-oxide signaling, enhancing vascular supply to repair tissue.
• Anti-Inflammatory: Downregulates TNF-α, IL-6, and oxidative-stress markers (NO, MDA) in GI-tract and tissue models.
Together these make BPC-157 one of the most-studied compounds in tissue-repair, regenerative, and GI-tract research.
| Compound | BPC-157 (Body Protection Compound) |
| Sequence | GEPPPGKPADDAGLV |
| Amino Acids | 15 (pentadecapeptide) |
| Formula | C₆₂H₉₈N₁₆O₂₂ |
| MW | 1419.56 g/mol |
| CAS Number | 137525-51-0 |
| Purity | ≥ 99% HPLC |
| Identity | LC-MS Verified |
| Form | Lyophilized powder |
| Vial Size | 3mL glass vial · 10mg (20mg sold separately) |
| Additives | None |
| Batch COA | Available for download |
- Tissue-repair: tendon, ligament, muscle, and wound models
- Gastrointestinal-tract & mucosal-barrier research
- Angiogenesis & vascular-regeneration research
- Anti-inflammatory pathway & cytokine-signaling studies
- Neurological & neuroprotection models
- VEGFR2 & nitric-oxide signaling research
Storage: Store lyophilized powder at -20°C long term; once reconstituted, store at 4°C, protect from light and moisture.
Handling: Research use only; handle by licensed, qualified professionals with PPE. Reconstitution chemistry is the sole responsibility of the receiving research institution.
FEATURED INGREDIENTS
All Ingredients
Gastric-Derived Peptide
A 15-amino-acid synthetic peptide identified from a protective protein in human gastric juice — studied for mucosal and tissue-protective properties.
Fibroblast & ECM
Studied for fibroblast proliferation and extracellular-matrix production (collagen, fibrin, elastin) in wound repair models.
Angiogenesis
Researched as a strong angiogenic factor — promotes new blood vessel formation via VEGFR2 interaction and nitric-oxide signaling.
PRODUCT BENEFITS
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Gastric-Derived Pentadecapeptide A 15-amino-acid synthetic peptide identified from a protective protein in human gastric juice — studied for mucosal and tissue-protective properties.
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Fibroblast & Tissue Repair Studied for stimulating fibroblast proliferation, ECM production (collagen, fibrin, elastin), and rapid cell migration to repair sites.
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Angiogenesis & Vascular Research Researched as an angiogenic factor — promotes new blood-vessel formation via VEGFR2 interaction and nitric-oxide signaling.
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Tendon & Connective Tissue Documented in animal models for tendon, ligament, and bone-healing research — more effective than bFGF/EGF/VEGF in certain tendon models.
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GI-Tract Research Examined for gastric mucosal protection, gut-barrier integrity, and GI-tissue-repair research models.
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99%+ HPLC-Verified Purity Independently verified by third-party labs via HPLC and LC-MS; batch-specific COA and SDS available pre-purchase.
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BPC-157 is a 15-amino-acid synthetic peptide studied across multiple tissue-repair and regenerative pathways. It stimulates fibroblast activity and ECM production (collagen, fibrin, elastin), promotes new capillary formation via VEGFR2 signaling, and downregulates pro-inflammatory cytokines — making it one of the most researched compounds in tendon, connective-tissue, and GI-tract repair models.*
WHAT TO EXPECT
Independently verified by third-party labs
Batch number printed on every vial
Orders before 2 PM EST ship same business day
Plain FedEx/UPS, return label: Shipping Manager
Real human responses within hours
Independently verified by third-party labs
Batch number printed on every vial
Orders before 2 PM EST ship same business day
Plain FedEx/UPS, return label: Shipping Manager
Real human responses within hours
Fibroblast Activation & ECM Production
Studied for stimulating fibroblast proliferation and accelerating migration of repair cells to wound sites, alongside extracellular-matrix production including collagen, fibrin, and elastin in tissue models.
Angiogenesis — VEGFR2 & NO Signaling
Researched as a potent angiogenic factor — interacts with VEGFR2 and nitric-oxide signaling pathways to promote new capillary formation and improve vascular supply to repair tissue.
GI-Tract & Mucosal Research
Studied for gastric mucosal protection and gut-barrier integrity; documented in preclinical models for tendon, ligament, muscle, and GI-tissue-repair research.
ALL DETAILS
- Fibroblast Activation & ECM Production — Studied for stimulating fibroblast proliferation and accelerating migration of repair cells to wound sites, alongside extracellular-matrix production including collagen, fibrin, and elastin in tissue models.
- Angiogenesis — VEGFR2 & NO Signaling — Researched as a potent angiogenic factor — interacts with VEGFR2 and nitric-oxide signaling pathways to promote new capillary formation and improve vascular supply to repair tissue.
- GI-Tract & Mucosal Research — Studied for gastric mucosal protection and gut-barrier integrity; documented in preclinical models for tendon, ligament, muscle, and GI-tissue-repair research.
The "BPC-157" Peptide |
No fillers | No artificial additives | No excipients | 99%+ HPLC verified · batch COA | No repackaged imports | No human-use claims |
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BPC-157 Peptide
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Other Peptide |
The "BPC-157" Peptide
| Compare to: | BPC-157 Peptide |
Other Peptide |
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| No fillers | ||
| No artificial additives | ||
| No excipients | ||
| 99%+ HPLC verified · batch COA | ||
| No repackaged imports | ||
| No human-use claims |
FAQs
GHK-Cu (Glycyl-L-Histidyl-L-Lysine Copper Complex) is a naturally occurring copper-binding tripeptide studied extensively in preclinical and in vitro research models. It is primarily researched for its role in tissue repair, collagen synthesis, wound healing, gene expression modulation, hair follicle biology, and antioxidant defense pathways.
Lyophilized means the compound has been freeze-dried — water is removed under vacuum to produce a stable powder. This process significantly extends shelf life and preserves compound integrity during storage and shipping. Lyophilized peptides are the research-grade standard because they maintain purity far longer than liquid formulations.
Each batch of GHK-Cu is independently verified at ≥99% purity using HPLC (High-Performance Liquid Chromatography). Identity is further confirmed by LC-MS (Liquid Chromatography-Mass Spectrometry). A batch-specific Certificate of Analysis (COA) is available for download before purchase.
Store lyophilized GHK-Cu at −20°C upon receipt. Keep protected from light, heat, and moisture. Do not open the vial until needed for your research protocol. Under proper storage conditions, lyophilized GHK-Cu maintains compound integrity for up to 24 months.
No. Peptides Verse does not provide reconstitution, dosing, or administration guidance of any kind. All reconstitution protocols are the sole responsibility of the qualified researcher or institution receiving this compound. This product is strictly for in vitro and laboratory research use only.
Yes. A batch-specific COA is available for every vial of GHK-Cu sold by Peptides Verse. The COA includes HPLC purity data, LC-MS identity confirmation, lot number, and testing lab details. It can be downloaded directly from the product page before or after purchase.
GHK refers to the free tripeptide (Glycyl-L-Histidyl-L-Lysine) without copper. GHK-Cu is the copper-chelated form — where a Cu² ion is bound to the tripeptide. The copper-chelated form is the biologically active version studied in most published research on wound healing, collagen synthesis, and gene expression modulation.
No. GHK-Cu from Peptides Verse is strictly for in vitro research and laboratory experimentation only. It is not intended for human or animal use of any kind. By purchasing, the buyer confirms they are a qualified researcher or institution and accepts full responsibility for safe handling and use.
All orders are shipped via FedEx with temperature-appropriate packaging to protect compound integrity during transit. Packaging is discreet — plain FedEx or UPS with no product branding on the exterior. Orders placed before 2 PM EST ship same business day.
Due to the nature of research chemicals, all sales are final once a vial has been opened or the seal broken. If you receive a damaged or incorrect item, contact support@peptidesverse.com within 48 hours of delivery with your order number and photos.