LONGEVITY PEPTIDES

NAD+ (Nicotinamide Adenine Dinucleotide) is a vital coenzyme found in all living cells, playing a central role in energy production, metabolism, and DNA repair. It helps convert nutrients into cellular energy (ATP) and supports mitochondrial function, cellular health, and longevity. NAD+ levels naturally decline with age, which has made it a key focus of research in anti-aging and metabolic health. NAD+ is a co-enzyme, not an amino acid based compound. 

• Cellular Energy & Metabolism: Boosts mitochondrial function and ATP production, improving overall energy, stamina, and metabolic efficiency.
• Anti-Aging & DNA Repair: Supports cellular repair processes and helps protect against oxidative stress, slowing signs of aging.
• Cognitive Function: Enhances mental clarity, focus, and memory by improving neuronal health and neurotransmitter balance.
• Recovery & Detoxification: Aids in muscle recovery, reduces inflammation, and supports liver function and detox pathways.

Epithalon is a synthetic peptide studied for its potential anti-aging and longevity-supporting effects. Research explores its ability to influence telomere activity, support cellular repair, and promote healthy sleep-wake cycles. Scientists are also interested in its possible role in reducing oxidative stress and supporting overall metabolic and immune function.

• Studied for potential anti-aging and longevity-supporting effects
• May influence telomere activity and promote cellular repair
• Explored for supporting healthy sleep-wake cycles
• May help reduce oxidative stress
• Studied for possible benefits to metabolic and immune function

MOTS-C is a mitochondrial-derived peptide studied for its potential effects on energy production, metabolism, and cellular resilience. Research suggests it may help improve metabolic efficiency, support healthy glucose regulation, and enhance physical endurance. Scientists are also exploring MOTS-C for its possible role in promoting longevity, reducing cellular stress, and improving overall metabolic health.

• Supports healthy energy production at the cellular level
• May improve metabolic efficiency and glucose regulation
• Studied for enhancing physical endurance and performance
• May help reduce cellular stress and promote resilience
• Explored for its potential role in longevity and overall metabolic health

KLOW is a regenerative peptide stack that combines BPC-157, GHK-Cu, KPV, and TB-4 to target healing, inflammation reduction, and tissue repair from multiple angles. BPC-157 supports gut integrity and accelerates soft-tissue healing, GHK-Cu promotes collagen production and skin repair, KPV helps calm inflammation, and TB-4 enhances cellular regeneration and recovery of muscles, tendons, and ligaments. Together, these peptides create a comprehensive healing blend often used to improve recovery, reduce pain, and support overall tissue health.

• BPC-157: Supports gut integrity, speeds soft-tissue repair, and helps protect against inflammation
• GHK-Cu: Encourages collagen production, skin rejuvenation, and tissue remodeling
• KPV: Acts as a potent anti-inflammatory peptide that helps calm irritated or overactive immune responses
• TB-4 (Thymosin Beta-4): Promotes cellular regeneration, improves mobility, and aids recovery of muscles, tendons, and ligaments
• Combined as KLOW, these peptides work together to create a broad healing and recovery-focused stack that targets inflammation, repair, and overall tissue health from multiple directions

KPV is a naturally occurring peptide studied for its strong anti-inflammatory and healing properties. In research settings, it has been examined for its potential to calm immune responses, reduce skin and gut inflammation, and support overall tissue repair. Scientists are particularly interested in KPV for its possible role in promoting healthier skin, improving gut balance, and aiding recovery from irritation or injury.

• Naturally occurring peptide with strong anti-inflammatory properties
• Studied for calming immune responses
• May help reduce skin and gut inflammation
• Explored for supporting overall tissue repair
• May promote healthier skin and improved gut balance
• Studied for aiding recovery from irritation or injury

GHK-Cu is a naturally occurring copper peptide studied for its role in skin repair, collagen production, and overall tissue regeneration. In research settings, it has been examined for its potential to improve skin firmness, support wound healing, and reduce visible signs of aging. Scientists are also interested in its possible anti-inflammatory and antioxidant effects, making GHK-Cu a widely explored compound in regenerative and cosmetic research.

• Naturally occurring copper peptide studied for skin repair and rejuvenation
• May support collagen production and improve skin firmness
• Explored for enhancing wound healing and tissue regeneration
• Studied for potential anti-inflammatory and antioxidant effects
• May help reduce visible signs of aging and improve overall skin health

BPC-157 is studied for its potential to speed the healing of muscles, tendons, ligaments, and other soft tissues. Research suggests it may protect the stomach lining, support ulcer healing, and calm gut inflammation. It’s also being explored for its anti-inflammatory effects, possible benefits in nerve repair, and support for bone and joint recovery. Overall, BPC-157 is commonly researched for its ability to improve mobility and enhance recovery after injuries.

• Helps heal muscles, tendons, ligaments faster
• Protects stomach lining, helps ulcers, may calm gut inflammation 
• Reduces inflammation and tissue damage
• May help nerve repair and bone/joint recovery
• Improves mobility after injuries

DSIP (Delta Sleep–Inducing Peptide) is a naturally occurring peptide best known for its role in supporting deeper, more restorative sleep. It may help regulate sleep cycles, reduce nighttime awakenings, and improve overall sleep quality, which can positively impact mood, cognitive function, and recovery. Beyond sleep support, DSIP has been associated with reduced stress response, improved pain tolerance, and enhanced physical recovery, making it a peptide of interest for overall nervous system balance and restorative wellness.

• Supports deeper, more consistent sleep cycles and improved rest quality
• Helps calm the nervous system, promoting relaxation and stress balance
• May reduce nighttime awakenings for more uninterrupted sleep
• Supports physical and mental recovery through improved rest and repair
• Can contribute to better mood and focus by enhancing sleep regulation

Semax is studied for its potential to enhance cognitive performance, particularly by improving focus, memory, and short-term learning. Research also explores its neuroprotective properties, suggesting it may help protect brain cells and support recovery after injury. Additionally, Semax is being examined for possible mood-boosting and pain-relief effects, making it a widely researched peptide in brain and behavioral science.

• Improves focus, memory, and learning (esp. short-term)
• Protects brain cells (neuroprotective)
• May improve mood and reduce depression
• Possible pain-relief effects
• Could help recovery after brain injury

Selank is a synthetic peptide studied for its potential effects on mood regulation, cognitive function, and stress response. In research settings, it has been examined for its ability to modulate neurotransmitters like serotonin and support processes related to focus, memory, and emotional balance. Scientists are especially interested in Selank because research suggests it may help reduce anxiety and improve mental clarity, making it a popular peptide to study for its potential effects on the brain.

• Synthetic peptide studied for cognitive and mood support
• May improve focus, memory, and learning
• Explored for potential anxiolytic (anti-anxiety) effects
• Studied for possible neuroprotective properties
• May help support emotional balance and stress resilience

Melanotan 1 and Melanotan 2 are synthetic peptides studied for their ability to influence the body’s natural melanin production. In research settings, these compounds are examined for their potential to promote skin pigmentation, provide photoprotective effects, and support tanning responses. Scientists also explore Melanotan 2 for its additional interactions with appetite, energy balance, and libido, although all findings remain limited to laboratory and experimental contexts.

• Synthetic peptides studied for stimulating natural melanin production
• May help promote skin pigmentation and tanning responses
• Explored for potential photoprotective effects on the skin
• Melanotan 2 is also studied for possible effects on appetite, energy balance, and libido

DISCLAIMER: THESE MATERIALS ARE FOR SCIENTIFIC LABORATORY RESEARCH USE ONLY. THEY ARE NOT FOR HUMAN OR ANIMAL CONSUMPTION, DIETARY SUPPLEMENTS, OR COSMETIC USE. WE DO NOT OFFER MEDICAL ADVICE, DOSING PLANS, OR RECONSTITUTION INFORMATION FOR HUMAN OR ANIMAL USE.

All information listed above reflects data obtained from laboratory-based scientific studies and is for research and educational purposes only.