GLOW

GLOW – GHK-Cu (50 mg) · BPC-157 (10 mg) · TB-500 (10 mg)

GLOW is a multi-compound regenerative research blend combining GHK-Cu (Glycyl-L-Histidyl-L-Lysine Copper Complex), BPC-157 (Body Protection Compound-157), and TB-500 (Thymosin Beta-4 fragment)—three extensively studied peptides involved in tissue repair, inflammation regulation, and cellular regeneration. This formulation integrates extracellular matrix remodeling, angiogenesis, cytoskeletal repair, and gene expression modulation to support comprehensive regenerative processes. In preclinical and experimental models, GLOW has been associated with accelerated wound healing, enhanced skin and connective tissue regeneration, improved hair follicle activity, reduced inflammatory signaling, and protection against oxidative stress. Its broad, multi-pathway activity makes GLOW a compound of interest in dermatological, cosmetic, musculoskeletal, and regenerative biology research.

$139.99

In stock

Disclaimer: This compound is not intended for human or veterinary use. GLOW is sold strictly for laboratory research purposes only. Any mention of effects is provided for educational information and relates solely to preclinical or experimental studies and does not imply efficacy in humans.

GLOW Summary

GLOW Blend GHK-Cu (50 mg) · BPC-157 (10 mg) · TB-500 (10 mg)

Advanced Tissue Regeneration & Wound Healing

GHK-Cu stimulates collagen, elastin, and glycosaminoglycan synthesis for extracellular matrix (ECM) reconstruction.
BPC-157 accelerates angiogenesis, fibroblast migration, and re-epithelialization in soft tissue and connective tissue injury models.
TB-500 promotes actin polymerization and cellular motility, allowing rapid cell migration into damaged tissue.
The combined blend enhances granulation tissue formation, vascularization, and structural repair across skin, muscle, tendon, ligament, corneal, gastric, and bone injury models.
Demonstrates accelerated wound closure and tissue strength restoration in preclinical research.

Skin Rejuvenation & Cosmetic Regeneration Research

GHK-Cu improves skin thickness, firmness, elasticity, and barrier integrity in photoaged and mature skin models.
BPC-157 supports dermal repair by stabilizing microvasculature and reducing inflammatory skin damage.
TB-500 enhances cellular turnover and cytoskeletal remodeling, supporting smoother skin architecture.
Reduces fine lines, wrinkles, uneven texture, and hyperpigmentation in cosmetic and dermatologic research.
Promotes youthful ECM organization and long-term skin resilience.

Hair Growth & Follicle Health

GHK-Cu expands follicle size, prolongs the anagen (growth) phase, and activates dermal papilla cells.
BPC-157 improves scalp microcirculation and follicular repair following inflammatory or mechanical stress.
TB-500 enhances stem cell migration and follicle regeneration signaling.
Supports reversal of follicle miniaturization and improved hair density in preclinical alopecia and topical research models.

Inflammation Modulation & Immune Balance

Downregulates pro-inflammatory cytokines including TNF-α, IL-6, and TGF-β across injured and aged tissues.
BPC-157 stabilizes endothelial and epithelial barriers, limiting inflammatory infiltration.
GHK-Cu suppresses NF-κB and p38 MAPK signaling pathways.
TB-500 promotes resolution-phase macrophage activity, reducing chronic inflammation and edema.
Supports controlled, pro-healing inflammation rather than prolonged tissue damage.

Antioxidant Defense & Cellular Protection

GHK-Cu scavenges reactive oxygen species (ROS) and increases antioxidant enzyme expression (e.g., superoxide dismutase).
Chelates pro-oxidant metals such as copper and iron, reducing lipid peroxidation.
BPC-157 protects mitochondrial integrity and reduces oxidative injury in muscle and connective tissues.
Shields skin cells, fibroblasts, and DNA from UV-induced damage and environmental stressors.

Gene Expression & Cellular Reprogramming

GHK-Cu modulates expression of over 30% of human genes related to repair, inflammation, and aging.
Upregulates genes involved in collagen synthesis, angiogenesis, stem cell activation, and antioxidant defense.
Downregulates pro-aging and degradative pathways (e.g., MMPs, IL-6, TNF signaling).
TB-500 and BPC-157 reinforce regenerative gene networks by improving intracellular transport and tissue signaling.
Drives fibroblasts and epithelial cells toward a youthful, regenerative phenotype.

Cartilage, Tendon & Connective Tissue Support

BPC-157 enhances tendon-to-bone healing, ligament repair, and joint surface regeneration.
TB-500 supports cytoskeletal remodeling critical for muscle and connective tissue recovery.
GHK-Cu increases proteoglycan and collagen synthesis in cartilage models.
Improves structural integrity of joints, tendons, ligaments, and fascia in preclinical research.
Demonstrates potential utility in experimental models of connective tissue degeneration and aging.

Anti-Fibrotic Activity & Scar Remodeling

GHK-Cu inhibits excessive myofibroblast activation, limiting abnormal collagen deposition.
BPC-157 promotes balanced ECM remodeling and reduces fibrotic tissue formation.
TB-500 encourages organized tissue regeneration rather than dense scar formation.
Minimizes hypertrophic scarring in skin and cardiac tissue models.
Supports regeneration-dominant healing outcomes over fibrosis.