NMN Delays Brain Aging in Multiple Aspects, Rejecting 'Senior Moments
Mar 25,2024 | AIDEVI
NMN has shown enormous potential value in delaying aging, improving health, especially in delaying brain aging.
Firstly, NMN plays a crucial role in enhancing brain energy metabolism. As age increases, the brain's energy metabolism gradually declines, leading to neuronal dysfunction and decreased memory. NMN, as a precursor to NAD+, can improve mitochondrial function by increasing NAD+ levels, thereby enhancing the efficiency of brain energy metabolism. This not only provides sufficient energy for the brain but also reduces neuronal damage caused by energy deficiency, thus delaying brain aging.
Secondly, NMN performs remarkably well in antioxidative stress. Oxidative stress is one of the key factors causing brain aging, as it damages neuronal structure and function, accelerating the aging process. By increasing NAD+ levels, NMN activates the Sirtuin protein family, enhancing cellular antioxidative capacity. This helps eliminate free radicals in the body, reducing oxidative stress damage to the brain and protecting neurons from oxidative stress.
Furthermore, NMN promotes neuronal regeneration and repair. With age, the brain's ability for neuronal regeneration gradually weakens, leading to a decrease in the quantity and quality of neurons. NMN regulates cellular signaling pathways, promoting the proliferation and differentiation of neural stem cells, thereby increasing the generation of new neurons. Additionally, it promotes the growth of axons and dendrites, improving the connectivity of neural networks. These effects help restore brain function and delay the aging process.
In addition, NMN has a positive impact on improving cognitive function. Cognitive decline is a clear manifestation of brain aging, significantly affecting the quality of life in the elderly. Through various pathways such as improving brain energy metabolism, antioxidative stress, and promoting neuronal regeneration and repair, NMN can improve cognitive function. Studies have found that supplementing NMN can significantly improve memory, attention, and learning abilities, keeping the brain youthful.
Apart from the above aspects, NMN may also delay aging by regulating gene expression in the brain. Changes in gene expression are a key factor influencing brain aging. NMN regulates gene expression patterns by affecting NAD+-dependent enzyme activity, maintaining a youthful gene expression profile in brain cells. This helps delay the aging process of the brain and maintain brain health. With further scientific research, the prospects for NMN in delaying brain aging are believed to be even broader."