NAD+激酶
生物
新陈代谢
生物化学
细胞生物学
荧光
体内
酶
遗传学
量子力学
物理
作者
Yejun Zou,Aoxue Wang,Li Huang,Xudong Zhu,Qingxun Hu,Yinan Zhang,Xianjun Chen,Fengwen Li,Qiaohui Wang,Hu Wang,Renmei Liu,Fangting Zuo,Ting Li,Jing Yao,Yajie Qian,Mei Shi,Xiao Yue,Weicai Chen,Zhuo Zhang,Congrong Wang
标识
DOI:10.1016/j.devcel.2020.02.017
摘要
Understanding of NAD+ metabolism provides many critical insights into health and diseases, yet highly sensitive and specific detection of NAD+ metabolism in live cells and in vivo remains difficult. Here, we present ratiometric, highly responsive genetically encoded fluorescent indicators, FiNad, for monitoring NAD+ dynamics in living cells and animals. FiNad sensors cover physiologically relevant NAD+ concentrations and sensitively respond to increases and decreases in NAD+. Utilizing FiNad, we performed a head-to-head comparison study of common NAD+ precursors in various organisms and mapped their biochemical roles in enhancing NAD+ levels. Moreover, we showed that increased NAD+ synthesis controls morphofunctional changes of activated macrophages, and directly imaged NAD+ declines during aging in situ. The broad utility of the FiNad sensors will expand our mechanistic understanding of numerous NAD+-associated physiological and pathological processes and facilitate screening for drug or gene candidates that affect uptake, efflux, and metabolism of this important cofactor.
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