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Structure of human MUTYH and functional profiling of cancer-associated variants reveal an allosteric network between its [4Fe-4S] cluster cofactor and active site required for DNA repair

Author

Listed:
  • Carlos H. Trasviña-Arenas

    (University of California
    Center for Research and Advanced Studies (CINVESTAV))

  • Upeksha C. Dissanayake

    (University of Texas at Dallas)

  • Nikole Tamayo

    (University of California
    University of California)

  • Mohammad Hashemian

    (University of California
    University of California)

  • Wen-Jen Lin

    (University of California
    University of California)

  • Merve Demir

    (University of California
    University of California)

  • Nallely Hoyos-Gonzalez

    (University of California)

  • Andrew J. Fisher

    (University of California
    University of California
    University of California)

  • G. Andrés Cisneros

    (University of Texas at Dallas
    University of Texas at Dallas)

  • Martin P. Horvath

    (University of Utah)

  • Sheila S. David

    (University of California
    University of California)

Abstract

MUTYH is a clinically important DNA glycosylase that thwarts mutations by initiating base-excision repair at 8-oxoguanine (OG):A lesions. The roles for its [4Fe-4S] cofactor in DNA repair remain enigmatic. Functional profiling of cancer-associated variants near the [4Fe-4S] cofactor reveals that most variations abrogate both retention of the cofactor and enzyme activity. Surprisingly, R241Q and N238S retained the metal cluster and bound substrate DNA tightly, but were completely inactive. We determine the crystal structure of human MUTYH bound to a transition state mimic and this shows that Arg241 and Asn238 build an H-bond network connecting the [4Fe-4S] cluster to the catalytic Asp236 that mediates base excision. The structure of the bacterial MutY variant R149Q, along with molecular dynamics simulations of the human enzyme, support a model in which the cofactor functions to position and activate the catalytic Asp. These results suggest that allosteric cross-talk between the DNA binding [4Fe-4S] cofactor and the base excision site of MUTYH regulate its DNA repair function.

Suggested Citation

  • Carlos H. Trasviña-Arenas & Upeksha C. Dissanayake & Nikole Tamayo & Mohammad Hashemian & Wen-Jen Lin & Merve Demir & Nallely Hoyos-Gonzalez & Andrew J. Fisher & G. Andrés Cisneros & Martin P. Horvath, 2025. "Structure of human MUTYH and functional profiling of cancer-associated variants reveal an allosteric network between its [4Fe-4S] cluster cofactor and active site required for DNA repair," Nature Communications, Nature, vol. 16(1), pages 1-16, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-58361-w
    DOI: 10.1038/s41467-025-58361-w
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    References listed on IDEAS

    as
    1. J. Christopher Fromme & Anirban Banerjee & Susan J. Huang & Gregory L. Verdine, 2004. "Structural basis for removal of adenine mispaired with 8-oxoguanine by MutY adenine DNA glycosylase," Nature, Nature, vol. 427(6975), pages 652-656, February.
    2. Konrad J. Karczewski & Laurent C. Francioli & Grace Tiao & Beryl B. Cummings & Jessica Alföldi & Qingbo Wang & Ryan L. Collins & Kristen M. Laricchia & Andrea Ganna & Daniel P. Birnbaum & Laura D. Gau, 2020. "The mutational constraint spectrum quantified from variation in 141,456 humans," Nature, Nature, vol. 581(7809), pages 434-443, May.
    3. Daniel Taliun & Daniel N. Harris & Michael D. Kessler & Jedidiah Carlson & Zachary A. Szpiech & Raul Torres & Sarah A. Gagliano Taliun & André Corvelo & Stephanie M. Gogarten & Hyun Min Kang & Achille, 2021. "Sequencing of 53,831 diverse genomes from the NHLBI TOPMed Program," Nature, Nature, vol. 590(7845), pages 290-299, February.
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