Role of NAD+ in regulating cellular and metabolic signaling pathways
Author | Sara, Amjad |
Author | Nisar, Sabah |
Author | Bhat, Ajaz A. |
Author | Shah, Ab Rauf |
Author | Frenneaux, Michael P. |
Author | Fakhro, Khalid |
Author | Haris, Mohammad |
Author | Reddy, Ravinder |
Author | Patay, Zoltan |
Author | Baur, Joseph |
Author | Bagga, Puneet |
Available date | 2022-02-27T05:24:38Z |
Publication Date | 2021-07-31 |
Publication Name | Molecular Metabolism |
Identifier | http://dx.doi.org/10.1016/j.molmet.2021.101195 |
Citation | Amjad, Sara؛ Nisar, Sabah؛ Bhat, Ajaz A.؛ Shah, Ab Rauf؛ Frenneaux, Michael P.؛ Fakhro, Khalid؛ Haris, Mohammad؛ Reddy, Ravinder؛ Patay, Zoltan؛ Baur, Joseph؛ Bagga, Puneet (2021). Role of NAD+ in regulating cellular and metabolic signaling pathways. Molecular Metabolism, 49, 101195. |
ISSN | 22128778 |
Abstract | BackgroundNicotinamide adenine dinucleotide (NAD+), a critical coenzyme present in every living cell, is involved in a myriad of metabolic processes associated with cellular bioenergetics. For this reason, NAD+ is often studied in the context of aging, cancer, and neurodegenerative and metabolic disorders. Scope of reviewCellular NAD+ depletion is associated with compromised adaptive cellular stress responses, impaired neuronal plasticity, impaired DNA repair, and cellular senescence. Increasing evidence has shown the efficacy of boosting NAD+ levels using NAD+ precursors in various diseases. This review provides a comprehensive understanding into the role of NAD+ in aging and other pathologies and discusses potential therapeutic targets. Major conclusionsAn alteration in the NAD+/NADH ratio or the NAD+ pool size can lead to derailment of the biological system and contribute to various neurodegenerative disorders, aging, and tumorigenesis. Due to the varied distribution of NAD+/NADH in different locations within cells, the direct role of impaired NAD+-dependent processes in humans remains unestablished. In this regard, longitudinal studies are needed to quantify NAD+ and its related metabolites. Future research should focus on measuring the fluxes through pathways associated with NAD+ synthesis and degradation. |
Language | en |
Publisher | Elsevier |
Subject | NAD+ Aging Cancer Metabolism Neurodegeneration Sirtuins |
Type | Article Review |
Volume Number | 49 |
Open Access user License | http://creativecommons.org/licenses/by/4.0/ |
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