NAD+激酶
肝细胞
烟酰胺腺嘌呤二核苷酸
线粒体
生物化学
限制
细胞生物学
舱室(船)
化学
新陈代谢
生物
烟酰胺
运输机
再生(生物学)
糖酵解
辅因子
细胞
分子生物学
酶
肝再生
甘油-3-磷酸脱氢酶
胞浆
生物能学
焊剂(冶金)
能量代谢
肝细胞学
作者
Sarmistha Mukherjee,Ricardo A. Velázquez Aponte,Caroline E. Perry,Won Dong Lee,Kevin A. Janssen,Marc Niere,Gabriel K. Adzika,Mu‐Jie Lu,Hsin‐Ru Chan,Xiangyu Zou,Beishan Chen,Nicole Bye,TERESA XIAO,Jin-Seon Yook,Oniel Salik,David W. Frederick,Ryan B. Gaspar,Khanh V. Doan,James G. Davis,Joshua D. Rabinowitz
标识
DOI:10.1038/s42255-025-01408-5
摘要
Abstract Nicotinamide adenine dinucleotide (NAD + ) precursor supplementation shows metabolic and functional benefits in rodent models of disease and is being explored as potential therapeutic strategy in humans. However, the wide range of processes that involve NAD + in every cell and subcellular compartment make it difficult to narrow down the mechanisms of action. Here we show that the rate of liver regeneration is closely associated with the concentration of NAD + in hepatocyte mitochondria. We find that the mitochondrial NAD + concentration in hepatocytes of male mice is determined by the expression of the transporter SLC25A51 (MCART1). The heterozygous loss of SLC25A51 modestly decreases mitochondrial NAD + content in multiple tissues and impairs liver regeneration, whereas the hepatocyte-specific overexpression of SLC25A51 is sufficient to enhance liver regeneration comparably to the effect of systemic NAD + precursor supplements. This benefit is observed even though NAD + levels are increased only in mitochondria. Thus, the hepatocyte mitochondrial NAD + pool is a key determinant of the rate of liver regeneration.
科研通智能强力驱动
Strongly Powered by AbleSci AI