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HKDC1, a target of TFEB, is essential to maintain both mitochondrial and lysosomal homeostasis, preventing cellular senescence.

Mengying CuiKoji YamanoKenichi YamamotoHitomi Yamamoto-ImotoSatoshi MinamiTakeshi YamamotoSho MatsuiTatsuya KaminishiTakayuki ShimaMonami OguraMegumi TsuchiyaKohei NishinoBrian T LaydenHisakazu KatoHidesato OgawaShinya OkiYukinori OkadaYoshitaka IsakaHidetaka KosakoNoriyuki MatsudaTamotsu YoshimoriShuhei Nakamura
Published in: Proceedings of the National Academy of Sciences of the United States of America (2024)
Mitochondrial and lysosomal functions are intimately linked and are critical for cellular homeostasis, as evidenced by the fact that cellular senescence, aging, and multiple prominent diseases are associated with concomitant dysfunction of both organelles. However, it is not well understood how the two important organelles are regulated. Transcription factor EB (TFEB) is the master regulator of lysosomal function and is also implicated in regulating mitochondrial function; however, the mechanism underlying the maintenance of both organelles remains to be fully elucidated. Here, by comprehensive transcriptome analysis and subsequent chromatin immunoprecipitation-qPCR, we identified hexokinase domain containing 1 (HKDC1), which is known to function in the glycolysis pathway as a direct TFEB target. Moreover, HKDC1 was upregulated in both mitochondrial and lysosomal stress in a TFEB-dependent manner, and its function was critical for the maintenance of both organelles under stress conditions. Mechanistically, the TFEB-HKDC1 axis was essential for PINK1 (PTEN-induced kinase 1)/Parkin-dependent mitophagy via its initial step, PINK1 stabilization. In addition, the functions of HKDC1 and voltage-dependent anion channels, with which HKDC1 interacts, were essential for the clearance of damaged lysosomes and maintaining mitochondria-lysosome contact. Interestingly, HKDC1 regulated mitophagy and lysosomal repair independently of its prospective function in glycolysis. Furthermore, loss function of HKDC1 accelerated DNA damage-induced cellular senescence with the accumulation of hyperfused mitochondria and damaged lysosomes. Our results show that HKDC1, a factor downstream of TFEB, maintains both mitochondrial and lysosomal homeostasis, which is critical to prevent cellular senescence.
Keyphrases
  • dna damage
  • oxidative stress
  • transcription factor
  • stress induced
  • diabetic rats
  • endothelial cells
  • dna repair
  • cell death
  • gene expression
  • cell proliferation
  • dna binding
  • signaling pathway
  • ionic liquid
  • drug induced