Name: NAD+ 500MG
SKU: 196
Availability: InStock

NAD+

NAD+ (Nicotinamide Adenine Dinucleotide) is a critical coenzyme found in all living cells, involved in redox reactions and cellular energy transfer. Preclinical studies in cell cultures and animal models indicate that NAD+ supplementation or precursor administration enhances mitochondrial function, activates sirtuins, supports DNA repair, and promotes cellular resilience under metabolic and oxidative stress.^[1]^[2]

Key Research Areas

Mitochondrial Function & Energy Metabolism – In rodent models of aging and metabolic disorder, NAD+ elevation has been shown to improve mitochondrial biogenesis, increase oxidative phosphorylation efficiency, and enhance ATP production via SIRT1 and PGC-1α pathways.^[3]^[4]
Sirtuin Activation & Longevity Pathways – Preclinical investigations demonstrate NAD+ serves as a substrate for sirtuins, promoting deacetylation of key proteins involved in DNA repair, inflammation control, and cellular senescence in models of age-related decline.^[5]^[6]
Neuroprotection & Stress Resistance – Animal studies suggest NAD+ supports neuronal survival, reduces oxidative damage, and modulates inflammatory responses in models of neurodegeneration, ischemia, and traumatic injury.^[7]^[8]

Product Specifications

CAS Number	53-84-9 (NAD+ free acid)
Molecular Formula	C₂₁H₂₇N₇O₁₄P₂
Molar Mass	663.43 g/mol
Sequence	N/A (dinucleotide coenzyme)
Synonyms	Nicotinamide Adenine Dinucleotide, β-NAD+, NAD
Purity	≥99% (HPLC)
Form	Lyophilized powder
Storage	−20°C (long-term), 2–8°C (reconstituted)
Solubility	Bacteriostatic water or sterile saline for reconstitution

References

1. Rajman L, et al. Therapeutic potential of NAD-boosting molecules: the in vivo evidence. Cell Metab. 2018. PubMed
2. Covarrubias AJ, et al. NAD+ metabolism and its roles in cellular processes during ageing. Nat Rev Mol Cell Biol. 2021. PubMed
3. Gomes AP, et al. Declining NAD+ induces a pseudohypoxic state disrupting nuclear-mitochondrial communication during aging. Cell. 2013. PubMed
4. Zhang H, et al. NAD+ repletion improves mitochondrial and stem cell function and enhances life span in mice. Science. 2016. PubMed
5. Imai SI, et al. NAD+ and sirtuins in aging and disease. Trends Cell Biol. 2014. PubMed
6. Yoshino J, et al. Nicotinamide mononucleotide, a key NAD+ intermediate, treats the pathophysiology of diet- and age-induced diabetes in mice. Cell Metab. 2011. PubMed
7. Wang SN, et al. NAD+ and mitochondrial dysfunction in neurodegeneration. Front Cell Neurosci. 2020. PubMed
8. Lautrup S, et al. NAD+ in brain aging and neurodegenerative disorders. Cell Metab. 2019. PubMed

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