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Proline-specific aminopeptidase P prevents replication-associated genome instability
N. Silva, M. Castellano-Pozo, K. Matsuzaki, C. Barroso, M. Roman-Trufero, H. Craig, DR. Brooks, RE. Isaac, SJ. Boulton, E. Martinez-Perez
Jazyk angličtina Země Spojené státy americké
Typ dokumentu časopisecké články, práce podpořená grantem
Grantová podpora
MC_U120097113
Medical Research Council - United Kingdom
Cancer Research UK - United Kingdom
Biotechnology and Biological Sciences Research Council - United Kingdom
NLK
Directory of Open Access Journals
od 2005
Free Medical Journals
od 2005
Public Library of Science (PLoS)
od 2005-07-01
PubMed Central
od 2005
Europe PubMed Central
od 2005
ProQuest Central
od 2005-07-01
Open Access Digital Library
od 2005-07-01
Open Access Digital Library
od 2005-01-01
Open Access Digital Library
od 2005-01-01
Medline Complete (EBSCOhost)
od 2005-07-01
Health & Medicine (ProQuest)
od 2005-07-01
- MeSH
- aminopeptidasy genetika metabolismus MeSH
- buněčný cyklus MeSH
- Caenorhabditis elegans genetika metabolismus MeSH
- nestabilita genomu * MeSH
- proliferace buněk MeSH
- prolin metabolismus MeSH
- proteiny Caenorhabditis elegans metabolismus MeSH
- replikace DNA MeSH
- zvířata MeSH
- Check Tag
- zvířata MeSH
- Publikační typ
- časopisecké články MeSH
- práce podpořená grantem MeSH
Genotoxic stress during DNA replication constitutes a serious threat to genome integrity and causes human diseases. Defects at different steps of DNA metabolism are known to induce replication stress, but the contribution of other aspects of cellular metabolism is less understood. We show that aminopeptidase P (APP1), a metalloprotease involved in the catabolism of peptides containing proline residues near their N-terminus, prevents replication-associated genome instability. Functional analysis of C. elegans mutants lacking APP-1 demonstrates that germ cells display replication defects including reduced proliferation, cell cycle arrest, and accumulation of mitotic DSBs. Despite these defects, app-1 mutants are competent in repairing DSBs induced by gamma irradiation, as well as SPO-11-dependent DSBs that initiate meiotic recombination. Moreover, in the absence of SPO-11, spontaneous DSBs arising in app-1 mutants are repaired as inter-homologue crossover events during meiosis, confirming that APP-1 is not required for homologous recombination. Thus, APP-1 prevents replication stress without having an apparent role in DSB repair. Depletion of APP1 (XPNPEP1) also causes DSB accumulation in mitotically-proliferating human cells, suggesting that APP1's role in genome stability is evolutionarily conserved. Our findings uncover an unexpected role for APP1 in genome stability, suggesting functional connections between aminopeptidase-mediated protein catabolism and DNA replication.
Department of Biology Faculty of Medicine Masaryk University Brno Czech Republic
Institute of Clinical Sciences Faculty of Medicine Imperial College London United Kingdom
Medical Research Council London Institute of Medical Sciences London United Kingdom
School of Biology University of Leeds Leeds United Kingdom
School of Science Engineering and Environment University of Salford Salford United Kingdom
Citace poskytuje Crossref.org
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- $a Genotoxic stress during DNA replication constitutes a serious threat to genome integrity and causes human diseases. Defects at different steps of DNA metabolism are known to induce replication stress, but the contribution of other aspects of cellular metabolism is less understood. We show that aminopeptidase P (APP1), a metalloprotease involved in the catabolism of peptides containing proline residues near their N-terminus, prevents replication-associated genome instability. Functional analysis of C. elegans mutants lacking APP-1 demonstrates that germ cells display replication defects including reduced proliferation, cell cycle arrest, and accumulation of mitotic DSBs. Despite these defects, app-1 mutants are competent in repairing DSBs induced by gamma irradiation, as well as SPO-11-dependent DSBs that initiate meiotic recombination. Moreover, in the absence of SPO-11, spontaneous DSBs arising in app-1 mutants are repaired as inter-homologue crossover events during meiosis, confirming that APP-1 is not required for homologous recombination. Thus, APP-1 prevents replication stress without having an apparent role in DSB repair. Depletion of APP1 (XPNPEP1) also causes DSB accumulation in mitotically-proliferating human cells, suggesting that APP1's role in genome stability is evolutionarily conserved. Our findings uncover an unexpected role for APP1 in genome stability, suggesting functional connections between aminopeptidase-mediated protein catabolism and DNA replication.
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