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GLOW (BPC-157 / TB-500 / GHK-Cu Blend)

GLOW (BPC-157 / TB-500 / GHK-Cu Blend)

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GHK-Cu + BPC-157 + TB-500 Peptide Blend Research

70mg (10mg / 10mg / 50mg))

Laboratory studies on this triple-peptide blend reveal converging but distinct reparative pathways. GHK-Cu enhances extracellular-matrix remodeling and anti-inflammatory gene expression [1 | 2]. BPC-157 provides broad cytoprotection and gut-centric healing [3], while TB-500 accelerates cell migration and angiogenesis [4 | 5]. Exploring them together lets investigators test whether simultaneous activation of these mechanisms produces additive or synergistic benefits in soft-tissue regeneration, vascular growth, and inflammation control.

Collagen Synthesis & Skin / Wound Healing

  • GHK-Cu boosts type I collagen production in cultured fibroblasts at picomolar concentrations [1] and speeds closure of ischemic or diabetic rodent wounds while lowering TNF-α and other pro-inflammatory cytokines [2].
  • TB-500 further stimulates keratinocyte and endothelial migration into the wound bed through integrin-linked-kinase activation, complementing GHK-Cu’s collagen-driven matrix repair [4 | 5].

Gastrointestinal Protection & Systemic Anti-Inflammatory Activity

  • BPC-157 reliably prevents and reverses NSAID-, alcohol-, and stress-induced gastric lesions in rats, preserving mucosal integrity and microvascular blood flow [3].
  • Its normalization of nitric-oxide signaling and dampening of inflammatory mediators may amplify the antioxidant gene programs up-regulated by GHK-Cu [2].

Angiogenesis & Tissue Regeneration

  • TB-500 is strongly pro-angiogenic, stimulating endothelial chemotaxis, tube formation, and aortic-ring sprouting in vitro and in vivo [5].
  • Full-length Thymosin-β4 improves cardiomyocyte survival and neovascularization after myocardial infarction, underscoring its broader regenerative potential [4].
  • GHK-Cu also raises VEGF expression and capillary density in healing tissue, so tandem use could further increase neovascularization in ischemic sites [2].

Muscle & Tendon Repair

  • BPC-157 accelerates healing of transected Achilles tendons and strengthens regenerated tissue in rats [7]; it also stimulates tenocyte proliferation [8].
  • TB-500 facilitates actin-cytoskeleton reorganization, essential for myoblast migration and tendon fibroblast alignment during repair [4].
  • Together with GHK-Cu’s collagen-stimulating actions [1 | 2], the triad enables experiments that measure whether combined treatment shortens functional recovery time or improves tensile strength beyond individual peptide effects.

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Disclaimer: For Research Purposes Only

This content is provided strictly for research purposes and does not constitute an endorsement or recommendation for the non-laboratory application or improper handling of peptides designed for research. The information, including discussions about specific peptides and their researched benefits, is presented for informational purposes only and must not be construed as health, clinical, or legal guidance, nor an encouragement for non-research use in humans. Peptides described here are solely for use in structured scientific study by authorized individuals. We advise consulting with research experts, medical practitioners, or legal counsel prior to any decisions about obtaining or utilizing these peptides. The expectation of responsible, ethical utilization of this information for legitimate investigative and scholarly objectives is paramount. This notice is dynamic and governs all provided content on research peptides.

GHK-Cu + BPC-157 + TB-500 Peptide Blend Description

This multi-peptide preparation unites three widely researched regenerative peptides into a single vial for investigations that probe complementary pathways of tissue repair and remodeling.

  • GHK-Cu is best known for up-regulating wound-healing genes and driving collagen, elastin, and angiogenic growth-factor expression.
  • BPC-157 exhibits gastro-protective, tendon-/ligament-healing, and anti-inflammatory actions through modulation of nitric-oxide signaling, growth-factor receptors, and cytokine balance.
  • TB-500 enhances cell migration and angiogenesis primarily via actin‐sequestering and integrin-linked pathways.

When combined, researchers can examine potential synergy across copper-mediated extracellular-matrix activation (GHK-Cu), cytoprotective/anti-inflammatory signaling (BPC-157), and actin-dependent cell-motility mechanisms (TB-500). Typical in-vitro or in-vivo models evaluate collagen deposition rates, angiogenic indices, or recovery timelines after controlled soft-tissue injury.

This is a 70 mg lyophilized blend containing 50 mg GHK-Cu, 10 mg BPC-157, and 10 mg TB-500 per vial.

Peptide Structures

GHK-Cu

  • Sequence: Gly-His-Lys · Cu²⁺
  • Molecular Formula: C₁₄H₂₄CuN₆O₄
  • Molecular Weight: 403.9 g/mol
  • PubChem CID: 378611
  • CAS Number: 49557-75-7
  • Synonyms: Copper peptide GHK, Cu-GHK, NSC 661251

BPC-157

  • Sequence: Gly-Glu-Pro-Pro-Pro-Gly-Lys-Pro-Ala-Asp-Asp-Ala-Gly-Leu-Val
  • Molecular Formula: C₆₂H₉₈N₁₆O₂₂
  • Molecular Weight: 1419.5 g/mol
  • PubChem CID: 9941957
  • CAS Number: 137525-51-0
  • Synonyms: PL-14736, Body-Protection Compound-157, Bepecin

TB-500 (Thymosin-β4 fragment)

  • Sequence: Ac-Leu-Lys-Lys-Thr-Glu-Thr-Gln (Ac-LKKTETQ)
  • Molecular Formula: C₃₈H₆₈N₁₀O₁₄
  • Molecular Weight: 889.0 g/mol
  • PubChem CID: 62707662
  • CAS Number: 885340-08-9
  • Synonyms: Thymosin-β4 fragment 17-23, TB-500 acetate, Ac-LKKTETQ

Lyophilized Peptides

All three peptides are supplied in a freeze-dried, filler-free state to maximize stability and preserve chemical integrity during refrigerated or frozen storage. Reconstitute with sterile solvent immediately prior to experimental use and store aliquots at ≤ –20 °C to prevent repeated freeze–thaw cycles.

Scientific Reviewer

Scientifically reviewed by Dr. Ky H. Le, MD. Dr. Le is a board-certified family medicine physician with over 20 years of clinical experience. Dr. Le validates the scientific accuracy of all technical content and research citations.

References

  1. Pickart L. et al., “Stimulation of collagen synthesis in fibroblast cultures by the tripeptide-copper complex GHK-Cu,” FEBS Letters 1988.
  2. Pickart L. & Vasquez-Sanchez R., “Regenerative and Protective Actions of the GHK-Cu Peptide,” International Journal of Molecular Sciences 2018.
  3. Ilic S. et al., “Pentadecapeptide BPC 157 and its effects on a NSAID toxicity model: diclofenac-induced gastrointestinal, liver, and encephalopathy lesions,” Life Sciences 2011.
  4. Bock-Marquette I. et al., “Thymosin β4 activates integrin-linked kinase and promotes cardiac cell migration, survival and repair,” Nature 2004. 
  5. Malinda K. M. et al., “Thymosin β4 promotes endothelial cell migration and angiogenesis,” Angiogenesis 1999. 
  6. Staresinic M. et al., “Gastric pentadecapeptide BPC 157 accelerates healing of transected rat Achilles tendon and in vitro stimulates tenocyte growth,” Journal of Orthopaedic Research 2003.
  7. Chang C.-H. et al., “The promoting effect of pentadecapeptide BPC 157 on tendon healing involves tendon outgrowth, cell survival, and cell migration,” Journal of Applied Physiology 2011.

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