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Epithalon

Description

Epithalon, also referred to as Epitalon or Epitalone, is a synthetic tetrapeptide often likened to a cellular fountain of youth. First identified in the pineal gland, this short four–amino‑acid sequence has attracted international interest from researchers focused on longevity. Its notable appeal stems from evidence that it may act on aging processes at the chromosomal level, particularly by supporting telomere maintenance—the protective end caps of chromosomes that progressively shorten with age.

Additional Information

  • Weight: 0.08 lbs

  • Dimensions: 0.87 × 1.18 × 0.87 in

  • Size: 50mg, 10mg

This product is intended solely for research purposes. It is not authorized for use in humans or animals and should only be handled by trained personnel in appropriate laboratory settings.

Highlights

Structural Properties

  • Appearance: White, freeze‑dried powder

  • Solubility: Easily soluble in water

  • Origin: Synthetic analogue of epitalamin

  • Storage Conditions: Store refrigerated at 2–8 °C (36–46 °F)

Biochemical Profile

  • Chemical Formula: C₁₄H₂₂N₄O₉

  • Molecular Weight: 390.34 g·mol

  • Amino Acid Sequence: Ala‑Glu‑Asp‑Gly

  • CAS Number: 307297‑39‑8

Biological Mechanism

Epithalon exerts its effects through a series of connected processes that target aging at a cellular level.

Core Mechanisms

Telomerase activation

May trigger telomerase activity, helping preserve or extend telomere length.

Melatonin modulation

Supports normalization of melatonin synthesis and alignment of circadian rhythms.

Antioxidant support

Strengthens cellular antioxidant defenses and lowers oxidative damage.

Cellular-Level Actions

Genomic protection

Contributes to maintenance of DNA integrity and genomic stability.

Mitochondrial support

Improves mitochondrial performance and cellular energy output.

Neuroendocrine regulation

Helps balance hormonal signaling across neuroendocrine pathways.

Research Highlights

Extensive research has demonstrated Epithalon’s wide‑ranging influence on various organ systems.

Anti‑Aging Actions

Research highlights notable longevity‑related outcomes:

• Lifespan extension observed in experimental models

• Favorable shifts in biological aging indicators

• Strengthened cellular repair and renewal capacity

• Slower progression of age‑associated decline

• Preservation of youthful gene activity patterns

Sleep and Circadian Regulation

Evidence points to significant improvements in sleep quality:

• Stabilization of melatonin secretion

• More balanced sleep stage distribution

• Enhanced synchronization of circadian rhythms

• Deeper and more restorative sleep phases

• Fewer age‑linked sleep disruptions

Neuroprotective Effects

Studies demonstrate protective actions on brain health:

• Better cognitive performance in aging subjects

• Defense against neurodegenerative changes

• Improved memory retention and learning ability

• Reduction of neuroinflammatory activity

• Sustained neural adaptability and plasticity

Cardiovascular Support

Findings suggest benefits for heart and vascular systems:

• Enhanced overall cardiovascular performance

• More stable blood pressure control

• Increased flexibility of blood vessels

• Lower oxidative burden in circulatory tissues

• Protection from age‑related cardiac alterations

Immune Function Modulation

Research indicates immune‑supportive properties:

• Recovery of T‑cell activity

• Stronger immune responsiveness in older models

• Greater resistance to infectious agents

• Balanced inflammatory signaling

• Improved immune monitoring and surveillance

Vision and Ocular Health

Evidence suggests positive impact on eye function:

Reduced progression of age‑related vision loss

Strengthened retinal performance

Lower incidence of cataract development

Better regulation of intraocular pressure

Possible Research-Related Effects

Epithalon shows strong safety characteristics, which enhance its relevance for studies on longevity.

Overall tolerance

Consistently well‑accepted in research settings

Absence of toxicity

No harmful effects detected, even at elevated dosages

Minor adverse events

Occasional, mild reactions at the site of administration

Drug compatibility

No meaningful interactions documented with other compounds

Extended use profile

Long‑term studies confirm continued safety over prolonged periods

Because DSIP is naturally present within the human body, it is associated with a reassuring safety profile

Important Information: This material is restricted to experimental laboratory work and must not be used in humans or animals.

References

Epithalon peptide and telomerase activation in human cells. Khavinson VK. 2003

Epitalon’s impact on aging biomarkers and tumor incidence. Anisimov VN. 2003

Case study: biological age, telomeres, and cognition improvement. Phelan J. 2024

Pineal peptides and melatonin rhythm normalization. Korkushko OV. 2004

AEDG peptide stimulation of gene expression. Khavinson V. 2020

Restoration of hormonal balance via pineal peptides. Goncharova ND. 2005

Pineal and thymic peptides in human longevity. Khavinson VK, Morozov VG. 2003

Peptide bioregulation of aging: findings and future directions. Anisimov VN, Khavinson VK. 2010

Neuroprotective properties of EDR peptide. Khavinson V. 2021

Livagen peptide and age-related correction effects. Kozina LS. 2008

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