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BPC-157 (10mg)
€ 52,45
Don't forget the reconstitution water
Required for dissolving freeze-dried peptides.
All products are intended for laboratory research only and are not suitable for human or animal consumption. By purchasing, the buyer agrees to use these products in accordance with all applicable laws.
This substance has not been evaluated or approved by the European (EMA), American (FDA) or Dutch (MEB/IGJ) medicines authorities for any human or veterinary use. No medical, therapeutic, diagnostic or preventive use is claimed or implied.
BPC-157 is a synthetic pentadecapeptide (15 amino acids) that is widely known within the field of peptide research. This BPC-157 peptide was originally derived from a naturally occurring protein fragment that was identified in stomach tissue. Since its discovery in the early 1990s, BPC-157 has been extensively studied in controlled laboratory and experimental settings for its potential role in molecular signaling, structural remodeling, angiogenesis, and dynamics of biological pathways.
Due to its high stability and broad activity profile, BPC-157 is often investigated as a research peptide in studies focusing on tissue structure, vascular systems and cellular communication pathways.
Sikiric P. et al., 1993 — Brazil
History of BPC-157
The BPC-157 peptide was first synthesized during research on cytoprotective compounds present in gastric juice. The first studies focused on the interaction with gastric tissue models and mechanisms involved in structural integrity.
As the study progressed, BPC-157 showed consistent activity across multiple experimental systems, including structural (tendon and collagen), vascular (angiogenesis), and epithelial (cell migration) models. These findings led to increasing interest in the role of BPC-157 in molecular remodeling and biological resilience within controlled research settings.
Today, BPC-157 remains a widely studied experimental peptide due to its interaction with multiple biological pathways and its stability under various research conditions.
Pflaum M., & Ručman R., 2005 — Brazil
BPC-157 Structure and Molecular Data
CAS#: 137525-51-0
Molecular formula: C₆₂H₉₈N₁₆O₂₂
Molecular Weight: 1419.556 g/mol
PubChem ID: 108101
The molecular structure of BPC-157 consists of a chain of 15 amino acids that forms a stable peptide sequence, often used in biochemical and molecular research applications. Its structural configuration allows interaction with multiple signaling pathways, making it relevant for protein signaling and extracellular matrix research.
BPC-157 Research Findings
The BPC-157 peptide has been investigated in a wide range of experimental models, including structural, vascular, epithelial, and systemic research environments.
Preclinical and laboratory studies report activity related to:
• Regulation of collagen and remodeling of the extracellular matrix
• Angiogenesis and vascular signaling pathways
• Cell migration and epithelial dynamics
• Interaction with the nitric oxide (NO) system
• Molecular signaling and modulation of biological pathways
Major Research Areas of BPC-157
Structural Research
Focus on collagen synthesis, tendon structure, and stability of the extracellular matrix.
Vascular examination
Investigation of angiogenesis, nitric oxide pathways and vascular signaling mechanisms.
Epithelial Research
Study of cell migration, tissue formation and interactions with the extracellular matrix.
Systemic Research
Analysis of signaling pathways, cellular viability, and overall pathway dynamics within experimental models.
Scientific Relevance of BPC-157
Collectively, the study suggests that BPC-157 has broad experimental value as a multi-purpose research peptide. Its interaction with key biological processes such as collagen formation, vascular development, and molecular signaling pathways provides a strong foundation for studying complex biological systems.
Through involvement in multiple pathways, BPC-157 is commonly used in research that focuses on biological resilience, regulation of pathways, and mechanisms that support structural integrity.
Its versatility makes it a relevant molecule for ongoing research within molecular biology, peptide research and experimental biochemistry.
Sikiric P. et al., Current Pharmaceutical Design, 2020
References
Sikiric P. et al. (1993). A new gastric juice peptide, including BPC-157, characterized and synthesized.
Pavlovic I. et al. (2003). The promoting effect of pentadecapeptide BPC-157 on tendon healing involves tendon outgrowth, cell survival and cell migration.
Staresinic M. et al. (2003). Effects of BPC-157 on ligament and tendon repair in experimental models.
Chang CH. et al. (2009). Protective effects of BPC-157 in experimental colitis models.
Hsieh MJ. et al. (2015). Therapeutic potential of pro-angiogenic BPC-157 in wound healing and burn models.
Seiwerth S. et al. (2018). Mechanisms of angiogenic activity and NO-system modulation by BPC-157.
Kang EA. et al. (2025). Protective effects of BPC-157 on liver, kidney, and lung in ischemia–reperfusion injury models.
Our Process
Frequently asked questions
Each batch is independently tested by third-party laboratories using HPLC and mass spectrometry. You can view the Certificate of Analysis (COA) of your specific batch on our lab results page.
Orders placed before 15:00 will be shipped the same day from our EU warehouse. Delivery typically takes 1–3 business days, depending on your location within Europe.