GHK-CU + EPITALON (Without Box)

Syn Age-Reset combines two well-studied peptides — GHK-Cu, a copper peptide with documented effects on collagen production and tissue repair pathways, and Epitalone (Epitalon), a tetrapeptide shown to influence telomerase activity and telomere length in cell models. Together, they support multiple mechanisms associated with cellular regeneration, structural protein maintenance, and longevity-related pathways.

🧪 Product Features

• 🧬 Dual-peptide longevity and regeneration formulation
• 🧪 Manufactured under cGMP standards
• ✅ ≥98 % purity validated by HPLC testing
• 📄 Batch-specific Certificates of Analysis (COAs) included
• 💉 Sterile, lyophilized peptide complex

🔬 Research-Aligned Benefits

🧱 Boosts Collagen & Structural Protein Pathways (GHK-Cu)

GHK-Cu has been shown in research to stimulate collagen synthesis, increase elastin and glycosaminoglycan production, and regulate genes involved in tissue repair and remodeling — contributors to skin integrity and extracellular matrix health.
🔗 https://pubmed.ncbi.nlm.nih.gov/29986520/ — GHK-Cu induces collagen, elastin, and connective tissue production and supports repair mechanisms in tissue models.
🔗 https://pubmed.ncbi.nlm.nih.gov/28212278/ — GHK-Cu modulates expression of genes associated with wound healing, matrix formation, and regenerative pathways.

🌟 Promotes Dermal Repair & Remodeling

GHK-Cu’s activity in fibroblast cultures shows stimulated collagen synthesis at physiologically relevant concentrations, indicative of enhanced dermal renewal and structural support.
🔗 https://www.sciencedirect.com/science/article/pii/001457938880509X — GHK-Cu stimulates collagen production by skin fibroblasts.

🔁 Resets Gene Expression Towards Regeneration

GHK-Cu has been shown to influence gene expression broadly, including many genes tied to tissue repair, skin regeneration, and anti-aging pathways.
🔗 https://pubmed.ncbi.nlm.nih.gov/29986520/ — GHK-Cu impacts gene networks associated with tissue regeneration and repair processes.

⏳ Supports Telomerase Activation & Telomere Maintenance (Epitalone)

Epitalone has been shown to increase telomere length in human cell lines by upregulating components of the telomerase pathway — a biomarker associated with cellular aging and regenerative potential.
🔗 https://pubmed.ncbi.nlm.nih.gov/40908429/ — Epitalone increases telomere length and upregulates telomerase components in human cell models, supporting longevity-related pathways.

🔬 Anti-Aging & Longevity Pathways (Epitalone)

Epitalone is referenced widely in anti-aging research for its potential to modulate age-associated biomarkers such as telomerase activity and telomere stability — mechanisms linked to cellular longevity.
🔗 https://pmc.ncbi.nlm.nih.gov/articles/PMC12411320/ — Demonstrates telomere extension and telomerase activation in human cell contexts.

🧠 Mechanism Summary

• Enhances collagen and extracellular matrix production through GHK-Cu pathways
• Modulates gene expression associated with tissue repair and regeneration
• Stimulates structural protein synthesis and connective-tissue support
• Promotes telomere length maintenance via telomerase pathway upregulation
• Supports research into longevity-related cellular mechanisms

🔄 Reconstitution & Handling Guidance

1️⃣ Reconstitute with sterile bacteriostatic water
2️⃣ Add appropriate volume based on your research protocols
3️⃣ Gently swirl to dissolve — do not shake
4️⃣ Store reconstituted peptide at 4 °C – 10 °C
5️⃣ Keep unopened vials refrigerated until expiration

❓ Frequently Asked Research Questions

What biological pathways do these peptides support?
GHK-Cu supports collagen synthesis, extracellular matrix remodeling, and tissue repair gene expression, while Epitalone is linked to telomere length regulation and telomerase activation in cell studies.

How are these peptides used in research contexts?
Syn Age-Reset is relevant for studies examining cellular aging markers, dermal repair pathways, gene expression shifts toward regeneration, and telomerase-associated functions.