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BPC-157

$44.99$99.99

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Our testing lab confirms peptides sequential signatures

Lyophilized Peptides: These peptides are freeze-dried, a process that not only extends shelf life but also preserves the purity and integrity of the peptides during storage.

Non-Lyophilized Peptides: Offered as a dry powder, these peptides, while not as extensively processed as lyophilized peptides, still maintain a high level of purity. Their stability, though not as enhanced as in lyophilized form, is sufficient for maintaining quality under proper storage conditions.

98.5% vs. 99% Purity: Both grades are manufactured in our US-based facility and tested for quality at a third party lab. While the 99%+ purity grade is our highest reference grade product line, the 98.5% purity variants still exceed US pharmaceutical standards.

Research

What is BPC-157?

BPC-157 (Body Protection Compound-157) is a synthetic peptide consisting of 15 amino acids, derived from a protective protein found in human gastric juice. First isolated and studied in the early 1990s, this peptide has drawn significant research interest due to its remarkable biological properties, particularly in tissue repair, wound healing and regeneration.

The peptide’s sequence was isolated from a larger protein called Body Protection Compound (BPC) that plays a natural role in maintaining gastrointestinal integrity. What makes BPC-157 particularly intriguing to researchers is its stability in human gastric juice and its apparent ability to maintain biological activity without being degraded, unlike many other peptides.

From a structural perspective, BPC-157’s unique sequence (Gly-Glu-Pro-Pro-Pro-Gly-Lys-Pro-Ala-Asp-Asp-Ala-Gly-Leu-Val) appears to interact with several cellular signaling pathways, particularly those involved in angiogenesis, collagen formation, and growth factor expression. This molecular interaction profile helps explain its observed effects in experimental models.

BPC-157 Peptide Structure

Property Description
Sequence Gly-Glu-Pro-Pro-Pro-Gly-Lys-Pro-Ala-Asp-Asp-Ala-Gly-Leu-Val
Molecular Formula C62H98N16O22
Molecular Weight 1419.556 g/mol
PubChem CID 108101
Synonyms
  • Pentadecapeptide BPC 157
  • Stable gastric pentadecapeptide BPC 157
  • Body Protection Compound-157
  • PL 14736
Research Applications
  • Tissue regeneration and wound healing
  • Gastrointestinal mucosal protection
  • Tendon and ligament repair
  • Vascular system studies
  • Anti-inflammatory mechanisms

BPC-157 Research

Research into BPC-157 spans numerous areas of investigation, from wound healing and tissue regeneration to vascular repair and neural protection. Laboratory studies have revealed a complex network of molecular interactions through which BPC-157 influences cellular behavior, tissue repair, and organ function.

BPC-157 and Wound Healing

BPC-157 demonstrates remarkable effects on wound healing through multiple mechanisms of action. Research indicates that the peptide accelerates tissue repair by stimulating the expression of growth factors, particularly vascular endothelial growth factor (VEGF). This process drives the formation of new blood vessels, ensuring optimal blood supply to healing tissues [R].

The peptide directly influences collagen formation during the healing process, with studies showing elevated type I collagen production in fibroblasts exposed to BPC-157. This results in superior wound tensile strength and more efficient wound closure across various types of injuries, from surgical incisions to burn wounds and deep tissue damage [R].

BPC-157 also modulates the inflammatory response during wound healing, maintaining an optimal balance between necessary and excessive inflammation. This controlled inflammatory environment, combined with increased angiogenesis and collagen production, creates ideal conditions for tissue repair and regeneration [R].

BPC-157 and Gastrointestinal Protection

Originally identified in gastric juice, BPC-157 exhibits significant protective effects on the gastrointestinal system. Research has shown that the peptide maintains gastric mucosal integrity by protecting gastric endothelial cells and accelerating the healing of gastric lesions [R].

Laboratory studies demonstrate that BPC-157 supports the formation and stability of gastric mucus, strengthening the natural barrier against damaging factors. The peptide also promotes mucosal blood flow and activates defensive cellular mechanisms, contributing to both the prevention and repair of gastrointestinal damage [R, R].

Beyond its protective effects, BPC-157 influences gastrointestinal motility and the enteric nervous system. Studies indicate that it helps maintain normal gastrointestinal function by regulating smooth muscle activity and supporting the network of neurons that control digestive processes [R, R].

BPC-157 and Musculoskeletal Recovery

BPC-157 shows significant potential in musculoskeletal tissue repair, with research demonstrating its effectiveness in healing tendons, ligaments, and muscles. The peptide accelerates recovery by increasing collagen synthesis and promoting the formation of new blood vessels within injured tissues.

In tendon and ligament studies, BPC-157 strengthens the connection between muscle and tendon fibers, improving the biomechanical properties of healing tissue. Research has shown faster recovery of tissue strength and functionality compared to control groups, particularly in challenging injuries like Achilles tendon ruptures and rotator cuff damage [R, R, R, R, R].

BPC-157 and Vascular Effects

BPC-157’s ability to influence blood vessel formation and repair represents one of its most significant properties. The peptide promotes angiogenesis by stimulating endothelial cell growth and supporting the formation of new capillary networks in damaged tissues [R, R].

Studies have demonstrated that BPC-157 accelerates vascular repair through multiple pathways, including the nitric oxide (NO) system. This interaction helps regulate blood vessel tone and promotes proper blood flow distribution, supporting tissue healing across various types of injuries [R, R].

BPC-157 and Inflammatory Response

BPC-157 exhibits notable anti-inflammatory properties through its interaction with various inflammatory mediators. The peptide modulates the production of pro-inflammatory cytokines and helps regulate the immune response in damaged tissues [R, R, R].

Research has shown that BPC-157 reduces neutrophil infiltration and oxidative stress in injured areas, helping to prevent excessive inflammation that could impair healing. This balanced inflammatory response promotes optimal conditions for tissue repair while minimizing potential damage from prolonged inflammation [R, R].

BPC-157 and Neural Protection

BPC-157 demonstrates significant neuroprotective properties, with research showing its ability to support both central and peripheral nerve repair. The peptide appears to promote nerve regeneration by supporting axonal growth and preserving neural tissue structure after injury [R, R, R, R].

Studies indicate that BPC-157 aids in the recovery of nerve function by protecting neural cells from damage and supporting their regeneration. This process involves the regulation of growth factors and the promotion of proper blood supply to neural tissues, facilitating repair mechanisms [R, R].

FAQ

Where to Buy BPC-157 for Research?

BPC-157 is available for purchase from specialized biotech suppliers that provide peptides for scientific research and development. As a supplier, Limitless Biotech offers USA-manufactured peptides that undergo comprehensive third-party testing to verify their molecular sequences and purity. Our commitment to quality assurance extends to efficient same-day shipping and dedicated customer support to facilitate research needs.

Is BPC-157 a Growth Hormone?

BPC-157 is not a growth hormone. It is a synthetic peptide consisting of 15 amino acids derived from a protein found in gastric juice. While it can influence growth factor expression, it functions differently from hormones and does not directly affect the endocrine system.

What is the Difference Between BPC-157 and Other Peptides?

BPC-157 is unique among peptides due to its stability in gastric acid and its ability to remain active without degradation. Unlike many other peptides that require specific delivery methods, BPC-157 maintains its biological activity under various conditions.

Does BPC-157 Occur Naturally?

While BPC-157 is derived from a naturally occurring protein in human gastric juice, the specific 15-amino acid sequence is synthetic and is not found as a standalone peptide in nature.

Discover Related Peptides

Explore these detailed research overviews of other peptides of scientific interest:

Related BPC-157 Forms

Growth Factor Peptides

  • TB-500: A synthetic version of Thymosin Beta-4, studied for tissue repair
  • Ipamorelin: A pentapeptide investigated for growth hormone secretion
  • MK-677: A non-peptide compound studied for growth hormone pathways

Regenerative and Protective Peptides

  • ARA-290: An engineered peptide derived from erythropoietin
  • Semax: A synthetic peptide investigated for neurological effects
  • Kisspeptin-10: A peptide studied for its role in reproductive biology

COA

Report 99%+ grade

 

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Legal Disclaimer

This product is sold as a pure compound for research purposes only and is not meant for use as a dietary supplement. Please refer to our terms and conditions prior to purchase.

Safety Information: Keep this product out of the reach of children. This material has limited research available about it and may result in adverse effects if improperly handled or consumed. This product is not a dietary supplement, but a pure substance, sold as a raw material. We attest exclusively to the quality, purity and description of the materials we provide. This product is for use and handling only by persons with the knowledge and equipment to safely handle this material. You agree to indemnify us for any adverse effects that may arise from improper handling and/or consumption of this product.

The articles and information on products that may be found on this website are provided exclusively for the purposes of providing information and education. These items are not pharmaceuticals or medications, and the Food and Drug Administration has not given permission for the treatment or prevention of any disease, medical condition, or ailment using them.

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