Product Specifications: Lyophilized Powder (>99% purity) in 3ml vial. *Requires Reconstitution ** Available for bulk custom order with 57 Cap/Crimp colors to choose from.
Application: Research peptide studied for anti-aging, longevity, cancer treatment, neuroregeneration, immune system modulation, tissue repair, healing, cardiovascular health.
Chemical Formula: C14H22N4O9
CAS Number: 307297-39-8
Molecular Weight: ~390.35 g/mol
Concentration: ≥99%
NA Epithalon Amidate (also known as N-Acetyl Epitalon Amidate) is a synthetic tetrapeptide with the amino acid sequence Ala-Glu-Asp-Gly. Its molecular structure and biological activities have positioned it as a candidate for addressing various health conditions and age-related processes.
Anti-Aging and Longevity
NA Epithalon Amidate is being extensively investigated for its potential anti-aging effects. Research indicates that it may significantly influence telomerase activity, which plays a crucial role in maintaining telomere length. By potentially activating telomerase, the compound might slow down or even reverse age-related cellular decline, addressing one of the fundamental mechanisms of biological aging.
Telomere Lengthening
Studies have demonstrated that NA Epithalon Amidate can increase telomerase activity in human cells. Telomerase is the enzyme responsible for adding DNA sequence repeats to the telomeres, which are the protective caps on chromosome ends that naturally shorten with each cell division. The compound's ability to potentially increase telomere length could help maintain cellular health and function, effectively extending cellular lifespan and vitality.
Cancer Treatment and Prevention
Researchers are exploring NA Epithalon Amidate's potential role in cancer therapeutics. Its influence on telomerase activity represents a double-edged sword in cancer biology, as regulated telomere maintenance is essential for preventing both premature cellular aging and uncontrolled cellular proliferation. The compound's effects on telomere biology could have significant implications for developing novel approaches to cancer treatment and prevention strategies.
Neuroprotection and Neuroregeneration
The neuroprotective and neuroregenerative properties of NA Epithalon Amidate constitute another major research focus. The compound may help protect neurons from damage caused by various stressors and promote the growth of new neurons. These properties could have valuable applications in treating neurodegenerative diseases such as Alzheimer's and Parkinson's disease, where neuronal damage and death are primary pathological features.
Immune System Modulation
Research is investigating how NA Epithalon Amidate affects immune system function. The compound may help regulate immune responses and prevent excessive inflammation, which could be beneficial in treating autoimmune diseases and other conditions characterized by immune system dysregulation. This immunomodulatory potential represents an important therapeutic avenue for a wide range of inflammatory conditions.
Cardiovascular Health
Emerging research suggests that NA Epithalon Amidate may offer beneficial effects on cardiovascular health. Its potential to improve telomere length in vascular cells and reduce oxidative stress could help mitigate age-related cardiovascular risks. These properties could contribute to the development of novel preventive and therapeutic approaches for cardiovascular diseases, which remain leading causes of mortality worldwide.
Wound Healing and Tissue Repair
NA Epithalon Amidate is being explored for its potential to enhance wound healing and tissue repair processes. The compound's effects on cellular proliferation and differentiation may provide mechanisms to accelerate healing and improve tissue regeneration. This research direction has implications for developing advanced treatments for wounds, tissue damage, and regenerative medicine applications.
References:
Khavinson, V. Kh., Lezhava, T. A., Monaselidze, J. G., Dzhokhadze, T. A., Dvalishvili, N. A., Bablishvili, N. K., & Ryadnova, I. Yu. (2002). Effects of Epithalamin on Chromatin Activation in Lymphocytes from Old People. Bulletin of Experimental Biology and Medicine, 134, 389–392.
Trofimova, S. V., & Khavinson, V. Kh. (2021). Effect of peptide epithalon on the activity of digestive enzymes of the gastrointestinal tract and non-digestive organs of rats of different ages. Cronicon, 1-7.
Zhang, Y., Li, X., & Wang, Y. (2019). Epithalon: A Review of Its Pharmacological Effects and Clinical Applications. Journal of Pharmacy and Pharmacology, 71(8), 1134–1145.
Disclaimer: This product is intended solely for laboratory research purposes. It is not suitable for consumption by humans, nor for medical, veterinary, or household purposes. Researchers should handle all peptides with care and adhere to strict safety guidelines during experiments. Only qualified professionals with appropriate expertise should manage and handle this product. The distributor, manufacturer, and seller of this product are not responsible for misuse or any resulting consequences. By accessing this product, you consent to comply with these terms and conditions.
