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Autoregulatory control of mitochondrial glutathione homeostasis.

Yuyang LiuShanshan LiuAnju TomarFrederick S YenGokhan UnluNathalie RopekRoss A WeberYing WangArtem KhanMark GadJunhui PengErdem M TerziHanan AlwaseemAlexandra E PaganoSøren HeisselHenrik MolinaBenjamin AllweinTimothy C KennyRichard L PossematoLi ZhaoRichard K HiteEkaterina V VinogradovaSheref S MansyKivanç Birsoy
Published in: Science (New York, N.Y.) (2023)
Mitochondria must maintain adequate amounts of metabolites for protective and biosynthetic functions. However, how mitochondria sense the abundance of metabolites and regulate metabolic homeostasis is not well understood. We focused on glutathione (GSH), a critical redox metabolite in mitochondria and identified a feedback mechanism that controls its abundance through the mitochondrial GSH transporter, SLC25A39. Under physiological conditions, SLC25A39 is rapidly degraded by a mitochondrial protease, AFG3L2. Depletion of GSH dissociates AFG3L2 from SLC25A39, causing a compensatory increase in mitochondrial GSH uptake. Genetic and proteomic analysis identified a putative iron-sulfur cluster in the matrix-facing loop of SLC25A39 to be essential for this regulation, coupling mitochondrial iron homeostasis to GSH import. Altogether, our work revealed a paradigm for the autoregulatory control of metabolic homeostasis in organelles.
Keyphrases
  • oxidative stress
  • fluorescent probe
  • ms ms
  • reactive oxygen species
  • endoplasmic reticulum
  • single cell
  • copy number
  • iron deficiency