Free Shipping on All Orders Above $150!
Free Shipping on All Orders Above $150!
GHK-Cu, or Glycyl-L-Histidyl-L-Lysine-Copper, is a naturally occurring copper peptide widely studied for its role in tissue regeneration, anti-inflammatory properties, and cellular communication. In research environments, GHK-Cu has shown the potential to stimulate collagen synthesis, enhance wound healing, and promote DNA repair. Its strong affinity for copper ions makes it a crucial molecule in skin and nerve research. GHK-Cu is currently being evaluated in various laboratory studies for its regenerative capabilities and influence on gene expression.
$35.00
9 in stock
Free Shipping on orders over $150
GHK-Cu is a tripeptide complexed with copper that is synthetically produced for research purposes. It is provided in lyophilized powder form to ensure stability and purity for experimental use.
C₁₄H₂₄N₆O₄Cu — Copper peptide formed by binding GHK with a copper (II) ion.
Research has shown GHK-Cu plays a critical role in tissue remodeling, particularly within the skin. It has been observed to promote keratinocyte proliferation, increase collagen and glycosaminoglycan production, and improve wound contraction. Laboratory studies suggest its ability to activate genes involved in skin repair while suppressing those associated with inflammation. Due to its regenerative profile, GHK-Cu continues to be a focus in dermatological research related to scar healing and age-related skin degradation.
Preclinical studies indicate GHK-Cu may exhibit antimicrobial properties by disrupting bacterial membrane function and supporting immune response. It has been evaluated in vitro for its ability to inhibit the growth of common skin pathogens without promoting resistance. Researchers are particularly interested in GHK-Cu’s potential as a topical antimicrobial agent due to its dual regenerative and antibacterial effects.
GHK-Cu has been studied for its neuroprotective potential. Research suggests it may support neuronal outgrowth, synaptic integrity, and reduce oxidative stress in brain tissue. Some studies propose that GHK-Cu enhances the expression of genes linked to nerve regeneration and cognitive resilience. While not fully understood, these properties make GHK-Cu a molecule of interest in neurodegenerative research models.
Laboratory investigations have evaluated GHK-Cu’s potential to mitigate some adverse effects of chemotherapy, including tissue damage and oxidative stress. It has shown promise in supporting the recovery of normal cell functions and DNA repair pathways. GHK-Cu’s gene-modulating abilities could make it a candidate for studies related to cytoprotection in oncology research.
GHK-Cu has demonstrated anti-inflammatory activity in research models, which may contribute to pain modulation. By downregulating pro-inflammatory cytokines and enhancing tissue repair, it may reduce discomfort associated with chronic inflammation or injury in laboratory settings. Though not a painkiller, its regenerative impact makes it relevant to studies on pain perception and nerve recovery.
ALL ARTICLES AND PRODUCT INFORMATION PROVIDED ON THIS WEBSITE ARE FOR INFORMATIONAL AND EDUCATIONAL PURPOSES ONLY.
THIS PRODUCT IS INTENDED FOR LABORATORY RESEARCH USE ONLY. NOT FOR HUMAN OR ANIMAL CONSUMPTION.
Semer vel urna potet ipsum interdum adipiscing suscipit.
Explore our pharmaceutical-grade peptides for Research purpose. Quality tested, fast shipping, and made in the USA.
Get exclusive offers and the latest product updates delivered straight to your inbox, subscribe to our newsletter today!
© 2025 Wellness Peptides. All rights reserved.
All peptides sold by Wellness Peptides are for research purposes only and are not intended for human or veterinary use. Please ensure compliance with local regulations before ordering.