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Cleavage-defective Topoisomerase I mutants sharply increase G-quadruplex-associated genomic instability

Topoisomerase 1 (Top1) removes transcription-associated helical stress to suppress G4-formation and its induced recombination at genomic loci containing guanine-run containing sequences. Interestingly, Top1 binds tightly to G4 structures, and its inhibition or depletion can cause elevated instabilit...

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Autores principales: Berroyer, Alexandra, Bacolla, Albino, Tainer, John A., Kim, Nayun
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Shared Science Publishers OG 2022
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8890623/
https://www.ncbi.nlm.nih.gov/pubmed/35291312
http://dx.doi.org/10.15698/mic2022.03.771
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author Berroyer, Alexandra
Bacolla, Albino
Tainer, John A.
Kim, Nayun
author_facet Berroyer, Alexandra
Bacolla, Albino
Tainer, John A.
Kim, Nayun
author_sort Berroyer, Alexandra
collection PubMed
description Topoisomerase 1 (Top1) removes transcription-associated helical stress to suppress G4-formation and its induced recombination at genomic loci containing guanine-run containing sequences. Interestingly, Top1 binds tightly to G4 structures, and its inhibition or depletion can cause elevated instability at these genomic loci. Top1 is targeted by the widely used anti-cancer chemotherapeutic camptothecin (CPT) and its derivatives, which stabilize Top1 covalently attached on a DNA nick and prevent the re-ligation step. Here we investigated how CPT-resistance conferring Top1 mutants, which emerge in cancer patients and cells treated with CPT, affect G4-induced genomic instability in S. cerevisiae. We found that Top1 mutants form stable complexes with G4 DNA and that expression of Top1 cleavage-defective mutants but not a DNA-binding-defective mutant lead to significantly elevated instability at a G4-forming genomic locus. Elevated recombination rates were partly suppressed by their proteolytic removal by SPRTN homolog Wss1 SUMO-dependent metalloprotease in vivo. Furthermore, interaction between G4-DNA binding protein Nsr1, a homolog to clinically-relevant human nucleolin, and Top1 mutants lead to a synergistic increase in G4-associated recombination. These results in the yeast system are strengthened by our cancer genome data analyses showing that functionally detrimental mutations in Top1 correlate with an enrichment of mutations at G4 motifs. Our collective experimental and computational findings point to cooperative binding of Top1 cleavage-defective mutants and Nsr1 as promoting DNA replication blockage and exacerbating genomic instability at G4-motifs, thus complicating patient treatment.
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spelling pubmed-88906232022-03-14 Cleavage-defective Topoisomerase I mutants sharply increase G-quadruplex-associated genomic instability Berroyer, Alexandra Bacolla, Albino Tainer, John A. Kim, Nayun Microb Cell Research Article Topoisomerase 1 (Top1) removes transcription-associated helical stress to suppress G4-formation and its induced recombination at genomic loci containing guanine-run containing sequences. Interestingly, Top1 binds tightly to G4 structures, and its inhibition or depletion can cause elevated instability at these genomic loci. Top1 is targeted by the widely used anti-cancer chemotherapeutic camptothecin (CPT) and its derivatives, which stabilize Top1 covalently attached on a DNA nick and prevent the re-ligation step. Here we investigated how CPT-resistance conferring Top1 mutants, which emerge in cancer patients and cells treated with CPT, affect G4-induced genomic instability in S. cerevisiae. We found that Top1 mutants form stable complexes with G4 DNA and that expression of Top1 cleavage-defective mutants but not a DNA-binding-defective mutant lead to significantly elevated instability at a G4-forming genomic locus. Elevated recombination rates were partly suppressed by their proteolytic removal by SPRTN homolog Wss1 SUMO-dependent metalloprotease in vivo. Furthermore, interaction between G4-DNA binding protein Nsr1, a homolog to clinically-relevant human nucleolin, and Top1 mutants lead to a synergistic increase in G4-associated recombination. These results in the yeast system are strengthened by our cancer genome data analyses showing that functionally detrimental mutations in Top1 correlate with an enrichment of mutations at G4 motifs. Our collective experimental and computational findings point to cooperative binding of Top1 cleavage-defective mutants and Nsr1 as promoting DNA replication blockage and exacerbating genomic instability at G4-motifs, thus complicating patient treatment. Shared Science Publishers OG 2022-01-31 /pmc/articles/PMC8890623/ /pubmed/35291312 http://dx.doi.org/10.15698/mic2022.03.771 Text en Copyright: © 2022 Berroyer et al. https://creativecommons.org/licenses/by/4.0/This is an open-access article released under the terms of the Creative Commons Attribution (CC BY) license, which allows the unrestricted use, distribution, and reproduction in any medium, provided the original author and source are acknowledged.
spellingShingle Research Article
Berroyer, Alexandra
Bacolla, Albino
Tainer, John A.
Kim, Nayun
Cleavage-defective Topoisomerase I mutants sharply increase G-quadruplex-associated genomic instability
title Cleavage-defective Topoisomerase I mutants sharply increase G-quadruplex-associated genomic instability
title_full Cleavage-defective Topoisomerase I mutants sharply increase G-quadruplex-associated genomic instability
title_fullStr Cleavage-defective Topoisomerase I mutants sharply increase G-quadruplex-associated genomic instability
title_full_unstemmed Cleavage-defective Topoisomerase I mutants sharply increase G-quadruplex-associated genomic instability
title_short Cleavage-defective Topoisomerase I mutants sharply increase G-quadruplex-associated genomic instability
title_sort cleavage-defective topoisomerase i mutants sharply increase g-quadruplex-associated genomic instability
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8890623/
https://www.ncbi.nlm.nih.gov/pubmed/35291312
http://dx.doi.org/10.15698/mic2022.03.771
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