4.7 Article

Cells Lacking PA200 Adapt to Mitochondrial Dysfunction by Enhancing Glycolysis via Distinct Opa1 Processing

期刊

出版社

MDPI
DOI: 10.3390/ijms22041629

关键词

PA200; RNA-seq; metabolism; mitochondria; glycolysis; Opa1

资金

  1. University of Debrecen, Debrecen, Hungary by a Bridging Fund [1G3D BKJ0 BFTK 247]
  2. International Education Office, University of Debrecen, Debrecen, Hungary
  3. Tempus Foundation, Stipendium Hungaricum

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The study revealed that PA200 protein regulates gene expression in neuroblastoma cells by impacting metabolic processes such as glycolysis and mitochondrial function at the transcriptional level. Depletion of PA200 led to metabolic shifts towards glycolysis from oxidative phosphorylation, along with changes in mitochondrial morphology and proteolytic cleavage. These findings suggest a role for PA200 in modulating metabolic changes in response to ATP synthase inhibition in a cellular model.
The conserved Blm10/PA200 proteins are proteasome activators. Previously, we identified PA200-enriched regions in the genome of SH-SY5Y neuroblastoma cells by chromatin immunoprecipitation (ChIP) and ChIP-seq analysis. We also found that selective mitochondrial inhibitors induced PA200 redistribution in the genome. Collectively, our data indicated that PA200 regulates cellular homeostasis at the transcriptional level. In the present study, our aim is to investigate the impact of stable PA200 depletion (shPA200) on the overall transcriptome of SH-SY5Y cells. RNA-seq data analysis reveals that the genetic ablation of PA200 leads to overall changes in the transcriptional landscape of SH-SY5Y neuroblastoma cells. PA200 activates and represses genes regulating metabolic processes, such as the glycolysis and mitochondrial function. Using metabolic assays in live cells, we showed that stable knockdown of PA200 does not change basal respiration. Spare respiratory capacity and proton leak however are slightly, yet significantly, reduced in PA200-deficient cells by 99.834% and 84.147%, respectively, compared to control. Glycolysis and glycolytic capacity show a 42.186% and 26.104% increase in shPA200 cells, respectively, compared to control. These data suggest a shift from oxidative phosphorylation to glycolysis especially when cells are exposed to oligomycin-induced stress. Furthermore, we observed a preserved long and compact tubular mitochondrial morphology after inhibition of ATP synthase by oligomycin, which might be associated with the glycolytic change of shPA200 cells. The present study also demonstrates that the proteolytic cleavage of Opa1 is affected, and that the level of OMA1 is significantly reduced in shPA200 cells upon oligomycin-induced mitochondrial insult. Together, these findings suggest a role for PA200 in the regulation of metabolic changes in response to selective inhibition of ATP synthase in an in vitro cellular model.

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