Mammalian autophagy is essential for hepatic and renal ketogenesis during starvation

酮发生 自噬 饥饿 饥饿反应 酮体 生物 内分泌学 内科学 糖异生 生物化学 新陈代谢 医学 细胞凋亡
作者
Ayano Takagi,Shinji Kume,Motoyuki Kondo,Jun Nakazawa,Masami Chin‐Kanasaki,Hisazumi Araki,Shin‐ichi Araki,Daisuke Koya,Masakazu Haneda,Tokuhiro Chano,Taiji Matsusaka,Kenji Nagao,Yusuke Adachi,Lawrence Chan,Hiroshi Maegawa,Takashi Uzu
出处
期刊:Scientific Reports [Nature Portfolio]
卷期号:6 (1) 被引量:60
标识
DOI:10.1038/srep18944
摘要

Abstract Autophagy is an intracellular degradation system activated, across species, by starvation. Although accumulating evidence has shown that mammalian autophagy is involved in pathogenesis of several modern diseases, its physiological role to combat starvation has not been fully clarified. In this study, we analysed starvation-induced gluconeogenesis and ketogenesis in mouse strains lacking autophagy in liver, skeletal muscle or kidney. Autophagy-deficiency in any tissue had no effect on gluconeogenesis during starvation. Though skeletal muscle- and kidney-specific autophagy-deficiency did not alter starvation-induced increases in blood ketone levels, liver-specific autophagy-deficiency significantly attenuated this effect. Interestingly, renal as well as hepatic expression of HMG-CoA synthase 2 increased with prolonged starvation. Furthermore, during starvation, mice lacking autophagy both in liver and kidney showed even lower blood ketone levels and physical activity than mice lacking autophagy only in liver. Starvation induced massive lipid droplet formation in extra-adipose tissues including liver and kidney, which was essential for ketogenesis. Moreover, this process was impaired in the autophagy-deficient liver and kidney. These findings demonstrate that hepatic and renal autophagy are essential for starvation-induced lipid droplet formation and subsequent ketogenesis and, ultimately, for maintaining systemic energy homeostasis. Our findings provide novel biological insights into adaptive mechanisms to combat starvation in mammals.

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