GHK-CU 50mg
GHK-CU 50mg
GHK-CU 50mg
GHK-CU 50mg
GHK-CU 50mg

GHK-CU 50mg

£19.90

GHK-Cu is a specialised research peptide for scientific exploration of cellular signalling, extracellular matrix regulation, and mechanisms linked to skin, hair, and connective tissue biology.

  • OP Labs formerly Oxford Peptides
  • Batch tested Purity: ≥ 98 % (HPLC, typical)
  • CAS Number: 49557-75-7
  • Molecular Formula: C₁₄H₂₂CuN₆O₄
SKU: x-18 Category:
  • OP Labs formerly Oxford Peptides.
  • Batch HPLC tested at 99%+ purity.
  • Store frozen long term or in fridge when ready to be used.
  • Sold for research purposes only.
  • Contact us for Wholesale Orders.

Download COA here: GHK-CU COA.pdf
Please note if you have a different Batch ID please contact us for the latest COA.

GHK-Cu

Synonyms / Designations: GHK-Cu, Copper Tripeptide-1, Glycyl-L-histidyl-L-lysine copper complex
CAS Number: 49557-75-7
Molecular Formula: C14H24CuN6O4
Molecular Weight: 403.92 g/mol
Purity: ≥ 99 % (HPLC)
Appearance: Blue to deep blue lyophilised powder
Pack Size: 50 mg (total)
Storage: Desiccated, protected from light, stored at –20 °C or below
Solubility: Water and buffered aqueous solutions; limited solubility in organic solvents.

Description & Mechanism

GHK-Cu is a naturally occurring copper–peptide complex that functions as an endogenous signalling molecule involved in metal ion transport and cellular regulation. It consists of the tripeptide glycyl-L-histidyl-L-lysine complexed with a divalent copper ion, forming a high-affinity chelate that facilitates controlled copper delivery within biological systems. In biochemical and cellular research settings, GHK-Cu modulates cellular signalling processes through both peptide-mediated interactions and copper-dependent biochemical activity.

Copper is an essential trace element required for numerous enzymatic and structural proteins involved in redox balance, extracellular matrix organisation, and cellular metabolism. By acting as a carrier and regulator of bioavailable copper, GHK-Cu plays a role in maintaining metal homeostasis and influencing downstream pathways linked to cellular growth, differentiation, and tissue remodelling.

In preclinical research models, exposure to GHK-Cu has been associated with altered gene expression patterns and modulation of signalling pathways related to extracellular matrix dynamics, oxidative stress response, and cellular turnover. These effects are context-dependent and vary with concentration, exposure duration, and experimental system, making GHK-Cu a widely used molecular tool for investigating copper-mediated signalling and peptide–metal interactions in vitro and in vivo.

Applications in Research
  • As a molecular probe to study copper transport, binding, and homeostasis in biological systems.
  • To investigate copper-dependent signalling pathways involved in cellular growth, differentiation, and tissue remodelling.
  • In cell-based assays examining changes in gene expression, redox-sensitive signalling, and extracellular matrix regulation.
  • In animal or ex vivo experimental models for mechanistic investigation of peptide–metal interactions, copper bioavailability, and metal-mediated tissue signalling processes.

Specifications Summary

Parameter Typical Value / Range
Purity (HPLC) ≥ 99
Appearance Blue to deep blue lyophilised powder
Molecular Weight 403.92 g/mol
Compound Type Copper-binding tripeptide
Solubility Water, dilute acids, DMSO
Storage –20 °C, desiccated, dark
Pack Size 3,000 mg (bulk)

Handling, Reconstitution & Stability

  • Weigh under inert/dry conditions; avoid moisture uptake.
  • Avoid metal-chelating agents (e.g. EDTA) or buffers that may disrupt copper coordination.
  • For stock solutions, dissolve in sterile water or appropriate buffered aqueous solution depending on assay requirements.
  • Filter sterilize if needed (e.g. 0.22 µm) immediately prior to use.
  • Aliquot and store stock solutions at –20 °C (or lower) to avoid repeated freeze–thaw.
  • Monitor for precipitation or pH shifts before use in sensitive assays.

Precautions & Notes

    • GHK-Cu activity is concentration-dependent; perform appropriate dose–response controls.
    • Copper coordination may be affected by pH, ionic strength, and chelating agents.
    • Light exposure and prolonged aqueous storage may reduce stability.
    • Intended strictly for laboratory research use; not for human or veterinary application.

    References

    1. Pickart, L. R., & Thaler, M. M. (1973). “Tripeptide in human plasma that prolongs survival of normal liver cells and stimulates growth in neoplastic liver.” Nature New Biology, 243(124), 85–87. https://doi.org/10.1038/newbio243085a0
    2. Pickart, L., Margolina, A. (2018). “GHK-Cu may prevent oxidative stress in skin by regulating copper and antioxidant gene expression.” Oxidative Medicine and Cellular Longevity, 2018, Article ID 3235918. https://doi.org/10.1155/2018/3235918
    3. Hong, Y., He, H., Jiang, C., et al. (2019). “Copper peptide GHK-Cu stimulates proliferation and expression of growth factors in human hair dermal papilla cells.” Molecules, 24(20), 3692. https://doi.org/10.3390/molecules24203692
    4. Pickart, L. (2008). “The human tri-peptide GHK and tissue remodeling.” Journal of Biomaterials Science, Polymer Edition, 19(8), 969–988. https://doi.org/10.1163/156856208784909345

    Keywords: GHK-CU, GHK, GHKCU, Copper Peptide.

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