A tetrapeptide derived from the pineal gland. Researched for its ability to activate telomerase, potentially extending cellular lifespan and slowing aging processes.
Role: Supports longevity
Full peptide profileThis stack layers four complementary anti-aging mechanisms. Epithalon addresses telomere biology and cellular lifespan. GHK-Cu modulates thousands of genes related to tissue repair, inflammation control, and antioxidant defense — one of the most remarkable gene-modulating peptides in research. NAD+ restores the coenzyme that powers mitochondrial energy production and DNA repair, both of which decline significantly with age. Sermorelin gently restores the GH pulse that the pituitary produces less of as we get older, supporting body composition, sleep quality, and tissue maintenance. Each peptide works on a different longevity mechanism, making this a true multi-system anti-aging protocol.

A tetrapeptide derived from the pineal gland. Researched for its ability to activate telomerase, potentially extending cellular lifespan and slowing aging processes.
Role: Supports longevity
Full peptide profileA copper-binding tripeptide famous for skin, hair, and wound-healing research.
Role: Supports longevity
Full peptide profileA coenzyme found in every cell that declines with age. Researched for energy production, DNA repair, cellular longevity, and neurological function.
Role: Supports longevity
Full peptide profileThe first 29 amino acids of GHRH. Was FDA approved for growth hormone deficiency and remains one of the most studied GHRH analogs for body composition and anti-aging.
Role: Supports longevity
Full peptide profileFor research purposes only. Nothing on this page is medical advice or a recommendation to use these compounds. Always consult a qualified professional before making health decisions.
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