The aldolase inhibitor aldometanib mimics glucose starvation to activate lysosomal AMPK

Chen‐Song Zhang; Mengqi Li; Yu Wang; Xiaoyang Li; Yue Zong; Shating Long; Mingliang Zhang; Jin-Wei Feng; Xiaoyan Wei; Yan‐Hui Liu; Baoding Zhang; Jianfeng Wu; Cixiong Zhang; Wenhua Lian; Teng Ma; Xiao Tian; Qi Qu; Yaxin Yu; Jinye Xiong; Dong-Tai Liu; Zhenhua Wu; Mingxia Zhu; Changchuan Xie; Yaying Wu; Zheni Xu; Chunyan Yang; Junjie Chen; Guohong Huang; Qingxia He; Xi Huang; Lei Zhang; Xiufeng Sun; Qingfeng Liu; Abdul Ghafoor; Fu Gui; Kaili Zheng; Wen Wang; Zhichao Wang; Yong Yu; Qingliang Zhao; Shu‐Yong Lin; Zhi‐Xin Wang; Hai‐long Piao; Xianming Deng; Sheng‐Cai Lin

doi:10.1038/s42255-022-00640-7

The aldolase inhibitor aldometanib mimics glucose starvation to activate lysosomal AMPK

Chen‐Song Zhang(Xiamen University), Mengqi Li(Xiamen University), Yu Wang(Xiamen University), Xiaoyang Li(Xiamen University), Yue Zong(Xiamen University), Shating Long(Xiamen University), Mingliang Zhang(Shanghai Jiao Tong University), Jin-Wei Feng(Xiamen University), Xiaoyan Wei(Xiamen University), Yan‐Hui Liu(Xiamen University), Baoding Zhang(Xiamen University), Jianfeng Wu(Xiamen University), Cixiong Zhang(Xiamen University), Wenhua Lian(Xiamen University), Teng Ma(Xiamen University), Xiao Tian(Xiamen University), Qi Qu(Xiamen University), Yaxin Yu(Xiamen University), Jinye Xiong(Xiamen University), Dong-Tai Liu(Xiamen University), Zhenhua Wu(Xiamen University), Mingxia Zhu(Xiamen University), Changchuan Xie(Xiamen University), Yaying Wu(Xiamen University), Zheni Xu(Xiamen University), Chunyan Yang(Xiamen University), Junjie Chen(Xiamen University), Guohong Huang(Xiamen University), Qingxia He(Tsinghua University), Xi Huang(Xiamen University), Lei Zhang(Xiamen University), Xiufeng Sun(Xiamen University), Qingfeng Liu(Xiamen University), Abdul Ghafoor(Xiamen University), Fu Gui(Xiamen University), Kaili Zheng(Xiamen University), Wen Wang(Dalian Institute of Chemical Physics), Zhichao Wang(Dalian Institute of Chemical Physics), Yong Yu(Xiamen University), Qingliang Zhao(Xiamen University), Shu‐Yong Lin(Xiamen University), Zhi‐Xin Wang(Dalian Institute of Chemical Physics), Hai‐long Piao(Dalian Institute of Chemical Physics), Xianming Deng(Xiamen University), Sheng‐Cai Lin(Xiamen University)

Nature Metabolism

October 10, 2022

10.1038/s42255-022-00640-7

Cited by 94Open Access

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Abstract

The activity of 5'-adenosine monophosphate-activated protein kinase (AMPK) is inversely correlated with the cellular availability of glucose. When glucose levels are low, the glycolytic enzyme aldolase is not bound to fructose-1,6-bisphosphate (FBP) and, instead, signals to activate lysosomal AMPK. Here, we show that blocking FBP binding to aldolase with the small molecule aldometanib selectively activates the lysosomal pool of AMPK and has beneficial metabolic effects in rodents. We identify aldometanib in a screen for aldolase inhibitors and show that it prevents FBP from binding to v-ATPase-associated aldolase and activates lysosomal AMPK, thereby mimicking a cellular state of glucose starvation. In male mice, aldometanib elicits an insulin-independent glucose-lowering effect, without causing hypoglycaemia. Aldometanib also alleviates fatty liver and nonalcoholic steatohepatitis in obese male rodents. Moreover, aldometanib extends lifespan and healthspan in both Caenorhabditis elegans and mice. Taken together, aldometanib mimics and adopts the lysosomal AMPK activation pathway associated with glucose starvation to exert physiological roles, and might have potential as a therapeutic for metabolic disorders in humans.

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