NAD+
What is NAD+
Nicotinamide adenine dinucleotide (NAD+) is a vital cofactor present in all living cells, essential for a multitude of metabolic processes. It functions primarily as a carrier of electrons in redox reactions, crucial for the production and transfer of energy in cells. NAD+ is involved in key metabolic pathways such as glycolysis, the citric acid cycle, and oxidative phosphorylation.
Beyond its metabolic roles, NAD+ is fundamental for DNA repair, cellular signaling, and gene expression regulation through its interaction with enzymes like sirtuins and poly (ADP-ribose) polymerases. The decline in NAD+ levels with age is associated with various age-related diseases, highlighting its potential in interventions aimed at enhancing health and longevity.
Mitochondrial Health
Mitochondria are the "powerhouses" of our cells. NAD+ is an essential coenzyme in mitochondrial respiration, where it participates in the transfer of electrons during the electron transport chain. This process generates ATP, the primary energy currency of cells. NAD+ acts as a crucial mediator in the conversion of nutrients into energy within the mitochondria. Maintaining optimal NAD+ levels is essential for efficient energy production and overall mitochondrial function.
NAD+ acts as a cofactor for enzymes that facilitate these processes. Adequate NAD+ levels are necessary for these metabolic pathways to operate effectively, supporting the production of energy and essential cellular building blocks.
Neuroprotective Health & Anti Aging
NAD+ has been implicated in various mechanisms of neuroprotection. It plays a role in maintaining the health and function of neurons, including the repair of damaged DNA in neurons, and promoting the production of neuroprotective factors. Some research suggests that boosting NAD+ levels may have neuroprotective effects and help mitigate the impact of neurodegenerative diseases.
NAD+ has garnered significant attention in the f ield of aging research. It is involved in regulating various processes associated with aging. NAD+ levels tend to decline with age, and this decline is thought to contribute to the aging process. Increasing levels of NAD+ can slow down aging
