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Combinatorial GxGxE CRISPR screen identifies SLC25A39 in mitochondrial glutathione transport linking iron homeostasis to OXPHOS

Author

Listed:
  • Xiaojian Shi

    (Yale School of Medicine
    Yale West Campus)

  • Bryn Reinstadler

    (Massachusetts General Hospital
    Harvard Medical School
    Broad Institute)

  • Hardik Shah

    (Massachusetts General Hospital
    Harvard Medical School
    Broad Institute)

  • Tsz-Leung To

    (Massachusetts General Hospital
    Harvard Medical School
    Broad Institute)

  • Katie Byrne

    (Yale School of Medicine
    Yale West Campus)

  • Luanna Summer

    (Yale School of Medicine
    Yale West Campus)

  • Sarah E. Calvo

    (Massachusetts General Hospital
    Harvard Medical School
    Broad Institute)

  • Olga Goldberger

    (Massachusetts General Hospital
    Harvard Medical School)

  • John G. Doench

    (Broad Institute)

  • Vamsi K. Mootha

    (Massachusetts General Hospital
    Harvard Medical School
    Broad Institute)

  • Hongying Shen

    (Yale School of Medicine
    Yale West Campus)

Abstract

The SLC25 carrier family consists of 53 transporters that shuttle nutrients and co-factors across mitochondrial membranes. The family is highly redundant and their transport activities coupled to metabolic state. Here, we use a pooled, dual CRISPR screening strategy that knocks out pairs of transporters in four metabolic states — glucose, galactose, OXPHOS inhibition, and absence of pyruvate — designed to unmask the inter-dependence of these genes. In total, we screen 63 genes in four metabolic states, corresponding to 2016 single and pair-wise genetic perturbations. We recover 19 gene-by-environment (GxE) interactions and 9 gene-by-gene (GxG) interactions. One GxE interaction hit illustrates that the fitness defect in the mitochondrial folate carrier (SLC25A32) KO cells is genetically buffered in galactose due to a lack of substrate in de novo purine biosynthesis. GxG analysis highlights a buffering interaction between the iron transporter SLC25A37 (A37) and the poorly characterized SLC25A39 (A39). Mitochondrial metabolite profiling, organelle transport assays, and structure-guided mutagenesis identify A39 as critical for mitochondrial glutathione (GSH) import. Functional studies reveal that A39-mediated glutathione homeostasis and A37-mediated mitochondrial iron uptake operate jointly to support mitochondrial OXPHOS. Our work underscores the value of studying family-wide genetic interactions across different metabolic environments.

Suggested Citation

  • Xiaojian Shi & Bryn Reinstadler & Hardik Shah & Tsz-Leung To & Katie Byrne & Luanna Summer & Sarah E. Calvo & Olga Goldberger & John G. Doench & Vamsi K. Mootha & Hongying Shen, 2022. "Combinatorial GxGxE CRISPR screen identifies SLC25A39 in mitochondrial glutathione transport linking iron homeostasis to OXPHOS," Nature Communications, Nature, vol. 13(1), pages 1-15, December.
    • Handle: RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-30126-9
    DOI: 10.1038/s41467-022-30126-9
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    References listed on IDEAS

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    Cited by:

    1. Laura Onuchic & Valeria Padovano & Giorgia Schena & Vanathy Rajendran & Ke Dong & Xiaojian Shi & Raj Pandya & Victoria Rai & Nikolay P. Gresko & Omair Ahmed & TuKiet T. Lam & Weiwei Wang & Hongying Sh, 2023. "The C-terminal tail of polycystin-1 suppresses cystic disease in a mitochondrial enzyme-dependent fashion," Nature Communications, Nature, vol. 14(1), pages 1-20, December.
    2. Cecilia Patitucci & Juan Diego Hernández-Camacho & Elodie Vimont & Sonny Yde & Thomas Cokelaer & Thibault Chaze & Quentin Giai Gianetto & Mariette Matondo & Anastasia Gazi & Ivan Nemazanyy & David A. , 2023. "Mtfp1 ablation enhances mitochondrial respiration and protects against hepatic steatosis," Nature Communications, Nature, vol. 14(1), pages 1-21, December.

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