The homodimerization domain of the Stl repressor is crucial for efficient inhibition of mycobacterial dUTPase

Zoé S. Tóth; Ibolya Leveles; Kinga Nyíri; Gergely N. Nagy; Veronika Harmat; Thapakorn Jaroentomeechai; Oliver Ozohanics; Rebecca L. Miller; Marina Ballesteros Álvarez; Beáta G. Vértessy; András Benedek

doi:10.1038/s41598-024-76349-2

Scientific Reports (Nov 2024)

The homodimerization domain of the Stl repressor is crucial for efficient inhibition of mycobacterial dUTPase

Zoé S. Tóth,
Ibolya Leveles,
Kinga Nyíri,
Gergely N. Nagy,
Veronika Harmat,
Thapakorn Jaroentomeechai,
Oliver Ozohanics,
Rebecca L. Miller,
Marina Ballesteros Álvarez,
Beáta G. Vértessy,
András Benedek

Affiliations

Zoé S. Tóth: Institute of Molecular Life Sciences, HUN-REN Research Centre for Natural Sciences
Ibolya Leveles: Institute of Molecular Life Sciences, HUN-REN Research Centre for Natural Sciences
Kinga Nyíri: Institute of Molecular Life Sciences, HUN-REN Research Centre for Natural Sciences
Gergely N. Nagy: Institute of Molecular Life Sciences, HUN-REN Research Centre for Natural Sciences
Veronika Harmat: Laboratory of Structural Chemistry and Biology, Institute of Chemistry, ELTE Eötvös Loránd University
Thapakorn Jaroentomeechai: Copenhagen Center for Glycomics, Department of Cellular and Molecular Medicine, University of Copenhagen
Oliver Ozohanics: Department of Medical Biochemistry, Semmelweis University
Rebecca L. Miller: Copenhagen Center for Glycomics, Department of Cellular and Molecular Medicine, University of Copenhagen
Marina Ballesteros Álvarez: Department of Applied Biotechnology and Food Science, Faculty of Chemical Technology and Biotechnology, Budapest University of Technology and Economics
Beáta G. Vértessy: Institute of Molecular Life Sciences, HUN-REN Research Centre for Natural Sciences
András Benedek: Institute of Molecular Life Sciences, HUN-REN Research Centre for Natural Sciences

DOI: https://doi.org/10.1038/s41598-024-76349-2
Journal volume & issue: Vol. 14, no. 1
pp. 1 – 16

Abstract

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Abstract The dUTPase is a key DNA repair enzyme in Mycobacterium tuberculosis, and it may serve as a novel promising anti-tuberculosis target. Stl repressor from Staphylococcus aureus was shown to bind to and inhibit dUTPases from various sources, and its expression in mycobacterial cells interfered with cell growth. To fine-tune and optimize Stl-induced inhibition of mycobacterial dUTPase, we aimed to decipher the molecular details of this interaction. Structural background of the complex between dUTPase and a truncated Stl lacking the repressor C-terminal homodimerization domain has been described, however, the effects of this truncation of Stl on enzyme binding and inhibition are still not known. Using several independent biophysical, structural and enzyme kinetic methods, here we show that lack of the repressor homodimerization domain strongly perturbs both enzyme binding and inhibition. We also investigated the role of a mycobacteria-specific loop in the Stl-interaction. Our results show that removal of this loop leads to a ten-fold increase in the apparent inhibition constant of Stl. We present a high-resolution three-dimensional structure of mycobacterial dUTPase lacking the genus-specific loop for structural insight. Our present data suggest that potent inhibition of mycobacterial dUTPase by Stl requires the wild-type full-length protein context.

Published in Scientific Reports

ISSN: 2045-2322 (Online)
Publisher: Nature Portfolio
Country of publisher: United Kingdom
LCC subjects: Medicine; Science
Website: https://www.nature.com/srep/

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