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Nonreceptor tyrosine kinase ABL1 regulates lysosomal acidification by phosphorylating the ATP6V1B2 subunit of the vacuolar-type H <sup>+</sup> -ATPase

Caiwei Song, Qincai Dong, Yi Yao, Yan Cui, Chunmei Zhang, Lijun Lin, Lin Zhu, Yong Hu, Hainan Liu, Yanwen Jin, Ping Li, Xuan Liu, Cheng Cao

2025Autophagy11 citationsDOIOpen Access PDF

Abstract

The vacuolar-type H+-ATPase (V-ATPase) is a proton pump responsible for controlling the intracellular and extracellular pH of cells. Its activity and assembly are tightly controlled by multiple pathways, of which phosphorylation-mediated regulation is poorly understood. In this report, we show that in response to starvation stimuli, the nonreceptor tyrosine kinase ABL1 directly interacts with ATP6V1B2, a subunit of the V1 domain of the V-ATPase, and phosphorylates ATP6V1B2 at Y68. Y68 phosphorylation in ATP6V1B2 facilitates the recruitment of the ATP6V1D subunit into the V1 subcomplex of V-ATPase, therefore potentiating the assembly of the V1 subcomplex with the membrane-embedded V0 subcomplex to form the integrated functional V-ATPase. ABL1 inhibition or depletion impairs V-ATPase assembly and lysosomal acidification, resulting in an increased lysosomal pH, a decreased lysosomal hydrolase activity, and consequently, the suppressed degradation of lumenal cargo during macroautophagy/autophagy. Consistently, the efficient removal of damaged mitochondrial residues during mitophagy is also impeded by ABL1 deficiency. Our findings suggest that ABL1 is a crucial autophagy regulator that maintains the adequate lysosomal acidification required for both physiological conditions and stress responses.

Topics & Concepts

BiologyProtein subunitPhosphorylationTyrosine kinaseCell biologyV-ATPaseATPaseTyrosineKinaseAutophagyBiochemistryULK1Protein kinase AEnzymeSignal transductionAMPKGeneApoptosisATP Synthase and ATPases ResearchAutophagy in Disease and TherapySphingolipid Metabolism and Signaling