Satotaka Omori scite author profile

Removal of senescent cells (senolysis) has been proposed to be beneficial for improving age-associated pathologies, but the molecular pathways for such senolytic activity have not yet emerged. Here, we identified glutaminase 1 (GLS1) as an essential gene for the survival of human senescent cells. The intracellular pH in senescent cells was lowered by lysosomal membrane damage, and this lowered pH induced kidney-type glutaminase (KGA) expression. The resulting enhanced glutaminolysis induced ammonia production, which neutralized the lower pH and improved survival of the senescent cells. Inhibition of KGA-dependent glutaminolysis in aged mice eliminated senescent cells specifically and ameliorated age-associated organ dysfunction. Our results suggest that senescent cells rely on glutaminolysis, and its inhibition offers a promising strategy for inducing senolysis in vivo.

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Blocking PD-L1–PD-1 improves senescence surveillance and ageing phenotypes

Wang

Johmura

Narumi

et al. 2022

Nature

209

113

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Generation of a p16 Reporter Mouse and Its Use to Characterize and Target p16high Cells In Vivo

et al. 2020

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A 3D tissue model-on-a-chip for studying the effects of human senescent fibroblasts on blood vessels

et al. 2021

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Satotaka Omori

Senolysis by glutaminolysis inhibition ameliorates various age-associated disorders

Blocking PD-L1–PD-1 improves senescence surveillance and ageing phenotypes

Generation of a p16 Reporter Mouse and Its Use to Characterize and Target p16high Cells In Vivo

A 3D tissue model-on-a-chip for studying the effects of human senescent fibroblasts on blood vessels

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