BPC-157 10mg lyophilized body protection compound peptide for research
BPC-157 10mg lyophilized powder detail view in sealed research vial
BPC-157 10mg Certificate of Analysis COA document
BPC-157 10mg lyophilized body protection compound peptide for research
BPC-157 10mg lyophilized powder detail view in sealed research vial
BPC-157 10mg Certificate of Analysis COA document

BPC-157 10mg Peptide (Body Protection Compound) – Lyophilized

$50.00

Explore the regenerative potential of BPC-157 10mg, a premium synthetic pentadecapeptide available exclusively for laboratory research. Sourced for rigorous analytical standards, every batch of our BPC-157 is Third-Party HPLC Verified to ensure ≥99% purity and subjected to Mass Spec Analysis to confirm precise molecular weight and sequence integrity. This stable, lyophilized peptide is a primary subject of investigation in studies focused on soft tissue modeling, cytoprotection, and angiogenic signaling.

PeptideHub Research Usage

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SKU: pw-bpc157-10 Categories: , ,

Description

What Is BPC-157?

BPC-157 (Body Protection Compound-157) is a synthetic 15-amino-acid peptide (MW: 1,419.53 Da, CAS: 137525-51-0) derived from human gastric juice protein. Over 100 preclinical studies investigate tissue repair via VEGF-mediated angiogenesis, NO modulation, and gastrointestinal cytoprotection. Uniquely stable at pH 2-3 (gastric acid range). HPLC-verified at 99%+ purity with COA.

Why Researchers Choose BPC-157

  • Extensively studied pentadecapeptide with over 100 published research papers in peer-reviewed journals
  • Every batch verified at ≥99% purity via independent third-party HPLC and mass spectrometry analysis
  • Stable lyophilized format with documented shelf life suitable for longitudinal research protocols
  • Primary research compound for cytoprotective and angiogenic signaling pathway investigations
  • Compatible with standard bacteriostatic water reconstitution and synergy research protocols (GLOW blend)

Frequently Asked Questions

What is BPC-157 and what research applications does it support?

BPC-157 (Body Protection Compound-157) is a synthetic pentadecapeptide consisting of 15 amino acids derived from a protective protein found in human gastric juice. In preclinical research, it has been investigated for cytoprotective properties, angiogenic signaling via VEGF and NO pathways, and soft tissue modeling. All Peptideware BPC-157 is provided for laboratory research purposes only.

How do I reconstitute BPC-157 for laboratory use?

To reconstitute BPC-157 10mg, add 2mL of bacteriostatic water to the vial using a sterile syringe. This yields a concentration of 5mg/mL. Direct the stream against the glass wall of the vial and allow the lyophilized powder to dissolve — gently roll, never shake. See our complete Reconstitution 101 guide for detailed protocols.

What purity verification does Peptideware provide for BPC-157?

Every batch of Peptideware BPC-157 undergoes independent third-party testing. HPLC analysis confirms ≥99% purity, and mass spectrometry verifies the precise molecular weight (1419.53 Da) and sequence integrity. Certificates of Analysis (COA) are available for every batch.

How should I store BPC-157 before and after reconstitution?

Store lyophilized (unreconstituted) BPC-157 at -20°C for maximum long-term stability, or at 2-8°C for short-term storage. Once reconstituted with bacteriostatic water, store at 2-8°C (refrigerated) and use within 28 days for optimal research consistency.

How does BPC-157 differ from TB-500 in research applications?

BPC-157 and TB-500 operate through distinct mechanisms. BPC-157 is primarily investigated for cytoprotective and angiogenic signaling (VEGF, NO pathways), while TB-500 (Thymosin Beta-4) is studied for cell migration and actin polymerization regulation. Published research suggests they may engage complementary pathways, which is why both are included in Peptideware’s GLOW blend for synergy research.

What published research exists on BPC-157?

BPC-157 has been the subject of over 100 published studies in peer-reviewed journals. Key research areas include soft tissue modeling, cytoprotective mechanisms, angiogenic signaling, and gastrointestinal research. Studies are indexed on PubMed under the search term ‘BPC-157 peptide.’ All findings are from preclinical research models.

Can BPC-157 be used in combination research protocols?

Yes. BPC-157 is frequently investigated alongside other peptides in combination research. Peptideware offers the GLOW Blend (BPC-157 + TB-500 + GHK-Cu) and KLOW Blend (BPC-157 + TB-500 + GHK-Cu + KPV) specifically for researchers studying multi-peptide synergistic protocols.

Further Reading

Research Mechanism: Angiogenesis & NO Pathway

BPC-157 is extensively studied for its interaction with the Nitric Oxide (NO) system, a critical regulator of vascular health and tissue perfusion.

  • VEGF Upregulation: In vitro observations suggest BPC-157 may modulate the Vascular Endothelial Growth Factor (VEGF) pathway, specifically interacting with VEGFR2 receptors. This interaction is hypothesized to promote angiogenesis—the physiological process through which new blood vessels form from pre-existing vessels.

  • NO Signaling: Research indicates the peptide may influence the Akt-eNOS pathway, potentially leading to increased nitric oxide bioavailability in endothelial cells. In animal models, this mechanism has been correlated with improved microcirculation and the accelerated re-establishment of blood flow in ischemic tissues.

  • Fibroblast Recruitment: Further studies investigate BPC-157’s potential to recruit fibroblasts to sites of injury, a key step in extracellular matrix (ECM) organization during the initial phases of tissue repair.

Synergistic Research: The GLOW Stack

For comprehensive tissue repair models, BPC-157 is frequently researched alongside TB-500 (Thymosin Beta-4). This pairing is central to our GLOW Peptide Stack due to their complementary mechanisms of action:

  • BPC-157 is studied for its influence on Angiogenesis (building the vascular supply line).

  • TB-500 is investigated for its role in Actin Sequestration and cell migration (moving repair cells to the injury site).

  • Hypothesis: Co-administration is theorized to create a “synergistic loop,” where enhanced blood flow supports the metabolic demands of migrating cells during tissue remodeling.

This research peptide undergoes rigorous quality control and stability testing to ensure maximum integrity for scientific applications. Each batch is manufactured under strict laboratory conditions and verified through independent laboratory analysis.⚠️ FOR RESEARCH PURPOSES ONLY

This product is strictly for in-vitro laboratory research, analysis, and development. It is not intended for human consumption, injection, or therapeutic use. BPC-157 is not a drug, dietary supplement, or food. All statements regarding the physiological mechanisms of BPC-157 are based on preclinical animal and cell-culture studies and are provided for educational and informational purposes only.

Storage & Handling

Peptides require careful storage to maintain their integrity and research effectiveness. Lyophilized peptides should be stored in a cold, dry, dark environment to prevent degradation. For short-term use within 4 weeks, storage at 4°C is sufficient, while long-term storage requires temperatures below -20°C or -80°C for extended periods up to 2 years. Always protect peptides from light exposure and avoid repeated freeze-thaw cycles, which can compromise structural integrity and research results.

Chemical Profile: BPC-157

Specification Detail
Sequence Gly-Glu-Pro-Pro-Pro-Gly-Lys-Pro-Ala-Asp-Asp-Ala-Gly-Leu-Val
PubChem CID 9941957
CAS Number 137525-51-0
Molar Mass 1419.5 g/mol
Formula C₆₂H₉₈N₁₆O₂₂
Form Lyophilized White Powder (Requires Reconstitution)
  • BPC-157 Certificate of Analysis showing third-party HPLC purity verification
  • BPC-157 HPLC chromatogram purity verification results
  • BPC-157 mass spectrometry analysis report showing molecular weight verification

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Legal Disclaimer & Safety Information

This product is sold as a pure research compound exclusively for laboratory research purposes and is not intended for use as a dietary supplement, medication, or for human/animal consumption. These research chemicals have not been evaluated by the U.S. Food and Drug Administration (FDA) and are not pharmaceuticals, medications, or dietary supplements. They have not received FDA approval for the treatment, prevention, diagnosis, mitigation, or cure of any disease, medical condition, or ailment. Keep this product out of the reach of children and unauthorized personnel, as this material may result in adverse effects if improperly handled or consumed. This product is for use and handling only by qualified professionals with the knowledge, training, and equipment to safely handle research chemicals. Under no circumstances should these products be utilized as drugs, agricultural or pesticide products, food additives, or household chemicals, and any form of introduction into the human or animal body is prohibited by law. By making a purchase from Peptideware, you acknowledge that you are acquiring research chemicals exclusively intended for in-vitro laboratory research use by qualified and licensed professionals only. All articles, information, and product descriptions provided on this website are strictly for educational and informational purposes. We attest exclusively to the quality, purity, and description of the materials we provide. Misrepresentation of these products for unauthorized purposes is strictly prohibited by law. You agree to indemnify and hold us harmless for any adverse effects, claims, expenses, losses, and liabilities that may arise from improper handling, misuse, or consumption of this product. Please refer to our terms and conditions prior to purchase.