Cellular Research | Longevity Peptides
Cellular Research Peptides — Longevity & Aging Pathways
Research compounds for cellular aging, mitochondrial bioenergetics, telomerase activation, NAD+ metabolism, and ECM remodeling pathway research. COA-verified, independently tested, ships from Houston TX.
Cellular Research Peptide Categories
Cellular research peptides target specific intracellular and extracellular mechanisms implicated in cellular aging, bioenergetics, structural maintenance, and longevity pathway signaling. OligoPoly Labs supplies the primary tool compounds across these research dimensions, all at ≥99.8% HPLC purity with batch COA documentation.
| Compound | Mechanism | Cellular Target | Price |
|---|---|---|---|
| Epitalon 10mg | Telomerase (hTERT) activation | Telomere length, replicative senescence | $49 |
| NAD+ 500mg | Sirtuin activation, PARP pathway | Mitochondrial bioenergetics, DNA repair | $59 |
| MOTS-c 10mg | Mitochondria-derived peptide, AMPK | Metabolic regulation, mitochondrial function | $69 |
| SS-31 10mg | Cardiolipin stabilization | Inner mitochondrial membrane integrity | $79 |
| GHK-Cu 100mg | MMP modulation, collagen synthesis | ECM remodeling, fibroblast activation | $49 |
| Pinealon 5mg | Peptide bioregulator, neuroendocrine | Pineal gland, neuroprotection, aging | $49 |
Key Cellular Mechanisms
Telomerase Activation (Epitalon)
Epitalon (Ala-Glu-Asp-Gly) is a synthetic tetrapeptide studied for its effects on telomerase (hTERT) activity. Telomerase maintains telomere length in replicating cells — shorter telomeres are associated with cellular senescence. Epitalon research covers telomere biology, replicative lifespan studies, and peptide bioregulator pharmacology.
Mitochondrial Bioenergetics (NAD+, MOTS-c, SS-31)
NAD+ (nicotinamide adenine dinucleotide) is the essential coenzyme for sirtuin deacetylases (SIRT1-7) and PARP enzymes involved in DNA damage response. MOTS-c is a mitochondria-derived peptide that activates AMPK and regulates metabolic homeostasis. SS-31 (Elamipretide) stabilizes cardiolipin in the inner mitochondrial membrane, supporting cristae structure and ATP synthase function.
ECM Remodeling (GHK-Cu)
GHK-Cu activates matrix metalloproteinases (MMP-2, MMP-9) and their inhibitors (TIMPs) to remodel extracellular matrix. It stimulates collagen I/III synthesis and fibroblast proliferation — making it a key compound for studying ECM biology, skin aging models, and wound healing research.
Longevity Research Stacks
- Longevity Research Stack — SS-31 + Epitalon + Pinealon + GHK-Cu | $299
- Anti-Aging & Repair Stack — Epitalon + GHK-Cu + Thymosin Beta-4 + BPC-157 | $349
Related Research Pages
- Peptide Science Guide — Cellular Biology Section
- Metabolic Research Overview
- Browse All 42 Research Compounds
Research Use Only: All compounds referenced are strictly for laboratory and in vitro research. Not for human use, veterinary use, or any diagnostic/treatment purpose.
OligoPoly Labs — Houston TX
Cellular Research Peptides — Longevity, Mitochondria & Aging Pathways
Cellular research peptides address the fundamental molecular mechanisms of cellular aging: telomerase activation (Epitalon), mitochondrial bioenergetics (NAD+, MOTS-c, SS-31), ECM remodeling (GHK-Cu), and neuroendocrine regulation (Pinealon). OligoPoly Labs supplies all major cellular longevity research compounds at ≥99.8% HPLC purity from Houston TX. View the full cellular research catalog or explore longevity research stacks.
Research Use Only.