Description

Product Description

Prezatide Copper, chemically defined as a tripeptide-copper complex, is a bioengineered molecule designed to mimic naturally occurring growth factors involved in skin repair and tissue regeneration. This compound has been studied for its ability to modulate dermal remodeling processes and stimulate hair follicle activity, making it an essential material in advanced cosmetic and dermatological research.

1. Structural and Biochemical Characteristics

Prezatide Copper belongs to the family of copper-binding peptides, combining amino acid residues with copper ions to form a stable coordination complex. This copper-peptide interaction plays a pivotal role in regulating cell proliferation, angiogenesis, and synthesis of extracellular matrix components such as collagen and elastin. The molecular configuration ensures optimal delivery of copper to the cellular microenvironment, enabling controlled enzymatic activation and antioxidant protection.

2. Research Applications in Skin Repair and Regeneration

In dermatological research, Prezatide Copper has been reported to enhance wound closure rates by stimulating keratinocyte migration and fibroblast proliferation. It also upregulates metalloproteinase inhibitors, balancing matrix degradation and synthesis. Studies indicate that its topical application can accelerate recovery of damaged epidermis while maintaining normal skin architecture. This makes it a promising compound in anti-aging and post-procedure skin regeneration models.

3. Hair Growth Stimulation and Follicular Research

One of the most recognized applications of Prezatide Copper lies in its contribution to hair follicle biology. Copper peptides are known to stimulate dermal papilla cells, enhance angiogenesis around follicles, and prolong the anagen (growth) phase. Research suggests Prezatide Copper promotes follicle size recovery and vascularization, thereby supporting the regeneration of hair shafts. It serves as a model peptide for studying androgenetic alopecia and hair cycle regulation.

4. Cellular Communication and Gene Expression Modulation

Prezatide Copper interacts with cellular pathways involved in cytokine production and gene expression regulation. It modulates transforming growth factor-beta (TGF-β), vascular endothelial growth factor (VEGF), and insulin-like growth factor (IGF-1) signaling. These mechanisms contribute to enhanced dermal density, improved elasticity, and better resistance to oxidative damage. The compound’s ability to stimulate antioxidant enzymes such as superoxide dismutase (SOD) further supports its role in anti-aging peptide research.

5. Cosmetic Science and Formulation Research

In the field of cosmetic peptide formulation, Prezatide Copper is used as an active research ingredient in formulations targeting hair loss prevention, skin firmness restoration, and post-procedure recovery. Its compatibility with delivery systems such as liposomes and hydrogels enhances dermal penetration and stability. It serves as a reference standard in developing advanced peptide complexes for rejuvenating cosmetic applications.

Product Specifications

Mechanism of Action

Prezatide Copper functions through its dual role as a metal-ion carrier and biological modulator. It delivers bioavailable copper ions into cells, which serve as essential cofactors for various enzymatic systems such as lysyl oxidase and cytochrome c oxidase. These enzymes are integral to collagen cross-linking, mitochondrial respiration, and antioxidant defense.

1. Copper-Mediated Enzymatic Activation

Copper ions are indispensable for enzymes responsible for tissue formation and cellular energy metabolism. By chelating copper in a peptide-bound form, Prezatide Copper ensures controlled release, minimizing oxidative stress while maintaining enzymatic functionality. This selective bioavailability supports enhanced tissue remodeling and vascular development.

2. ECM Remodeling and Collagen Induction

The peptide stimulates the synthesis of type I and III collagen, elastin, and glycosaminoglycans by activating fibroblasts. Simultaneously, it regulates metalloproteinases (MMPs) and their inhibitors (TIMPs), achieving a balance between matrix degradation and repair. This mechanism underlies its cosmetic relevance for skin elasticity and wrinkle reduction research.

3. Antioxidant and Anti-Inflammatory Pathways

Prezatide Copper exhibits strong antioxidant properties by promoting the expression of superoxide dismutase (SOD), catalase, and glutathione peroxidase. These enzymes mitigate oxidative stress and inflammatory cascades, offering cellular protection during aging or injury. Its copper core participates in redox cycling that neutralizes free radicals without initiating cellular damage.

4. Hair Follicle Stimulation Mechanism

In follicular biology, Prezatide Copper upregulates growth factors such as VEGF and IGF-1, enhancing blood circulation and nutrient delivery to hair roots. It strengthens follicle anchoring, prolongs the anagen phase, and supports dermal papilla cell proliferation. These effects make it a target molecule for research on hair cycle dynamics and follicular rejuvenation.

5. Wound Healing and Tissue Repair Research

The peptide accelerates wound healing by promoting keratinocyte migration, collagen reorganization, and angiogenesis. Copper-dependent enzymes facilitate cross-linking of collagen fibrils, providing tensile strength to regenerated tissue. This regenerative process positions Prezatide Copper as a vital compound in tissue engineering and dermatological repair studies.

Side Effects

Prezatide Copper has shown a strong safety profile in cosmetic and dermatological research models. However, as with all laboratory compounds, it is essential to maintain appropriate handling and dosage control.

1. Cytotoxicity Considerations

High concentrations of copper ions can induce oxidative stress. Therefore, the controlled delivery mechanism of Prezatide Copper is crucial for maintaining cellular homeostasis. In vitro data suggest minimal cytotoxicity within research-use concentrations.

2. Allergic or Irritant Potential

Although rare, copper-containing formulations may occasionally induce mild irritation or erythema under experimental conditions. These reactions are typically transient and concentration-dependent.

3. Research Safety Guidelines

Proper laboratory safety measures—including the use of gloves, protective eyewear, and biosafety protocols—are recommended. This compound is intended strictly for laboratory research use only and not for human or animal application.

Keywords

Prezatide Copper, Copper Peptide Complex, Iamin, Hair Growth Peptide, Skin Regeneration, Collagen Stimulation, Anti-Aging Research, Cosmetic Peptide, High Purity, Peptide Wholesale China, Factory Peptide Supplier, OEM & Bulk Peptide Production

Shipping Guarantee

All Prezatide Copper shipments are handled using validated cold-chain logistics to preserve peptide integrity. Each package is sealed in moisture-proof containers with secondary protective wrapping and continuous temperature monitoring. Products are shipped via express international couriers with full tracking and insurance coverage.

Trade Assurance

We Prezatide Copper ensure product authenticity, verified ≥99% purity, and compliance with analytical standards (HPLC, MS, and NMR). Each batch is supplied with a Certificate of Analysis (CoA). Our trade assurance policy guarantees replacement or refund for any deviation from listed specifications.

Payment Support

We Prezatide Copper provide flexible and secure global payment options to support international research transactions. Accepted payment methods include PayPal, major credit cards (Visa, MasterCard, American Express), telegraphic transfer (T/T), and cryptocurrencies (USDT, Bitcoin, Ethereum). All transactions are protected by industry-standard encryption and verified payment gateways to ensure confidentiality and fund security.

Disclaimer

All Prezatide Copper products listed are intended for laboratory research use only and not for human or veterinary use. They are not drugs, medical devices, or diagnostics and should not be administered to humans or animals. Researchers must handle all materials in accordance with institutional biosafety and chemical safety guidelines. The information provided is for scientific reference only and does not imply therapeutic efficacy, safety, or regulatory approval.