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Pathological mutations in PNKP trigger defects in DNA single-strand break repair but not DNA double-strand break repair
I. Kalasova, R. Hailstone, J. Bublitz, J. Bogantes, W. Hofmann, A. Leal, H. Hanzlikova, KW. Caldecott,
Jazyk angličtina Země Velká Británie
Typ dokumentu časopisecké články, práce podpořená grantem
Grantová podpora
MR/P010121/1
Medical Research Council - United Kingdom
NLK
Directory of Open Access Journals
od 2005
Free Medical Journals
od 1996
PubMed Central
od 1974
Europe PubMed Central
od 1974
Open Access Digital Library
od 1996-01-01 do 2030-12-31
Open Access Digital Library
od 1974-01-01
Open Access Digital Library
od 1996-01-01
Open Access Digital Library
od 1996-01-01
Medline Complete (EBSCOhost)
od 1996-01-01
Oxford Journals Open Access Collection
od 1996-01-01
ROAD: Directory of Open Access Scholarly Resources
od 1974
PubMed
32504494
DOI
10.1093/nar/gkaa489
Knihovny.cz E-zdroje
- MeSH
- apraxie genetika patologie MeSH
- Charcotova-Marieova-Toothova nemoc genetika patologie MeSH
- dvouřetězcové zlomy DNA * MeSH
- enzymy opravy DNA genetika MeSH
- fibroblasty metabolismus patologie MeSH
- fosfotransferasy s alkoholovou skupinou jako akceptorem genetika MeSH
- jednořetězcové zlomy DNA * MeSH
- lidé MeSH
- mikrocefalie genetika patologie MeSH
- mutace genetika MeSH
- oprava DNA genetika MeSH
- protein XRCC1 genetika MeSH
- záchvaty genetika patologie MeSH
- Check Tag
- lidé MeSH
- Publikační typ
- časopisecké články MeSH
- práce podpořená grantem MeSH
Hereditary mutations in polynucleotide kinase-phosphatase (PNKP) result in a spectrum of neurological pathologies ranging from neurodevelopmental dysfunction in microcephaly with early onset seizures (MCSZ) to neurodegeneration in ataxia oculomotor apraxia-4 (AOA4) and Charcot-Marie-Tooth disease (CMT2B2). Consistent with this, PNKP is implicated in the repair of both DNA single-strand breaks (SSBs) and DNA double-strand breaks (DSBs); lesions that can trigger neurodegeneration and neurodevelopmental dysfunction, respectively. Surprisingly, however, we did not detect a significant defect in DSB repair (DSBR) in primary fibroblasts from PNKP patients spanning the spectrum of PNKP-mutated pathologies. In contrast, the rate of SSB repair (SSBR) is markedly reduced. Moreover, we show that the restoration of SSBR in patient fibroblasts collectively requires both the DNA kinase and DNA phosphatase activities of PNKP, and the fork-head associated (FHA) domain that interacts with the SSBR protein, XRCC1. Notably, however, the two enzymatic activities of PNKP appear to affect different aspects of disease pathology, with reduced DNA phosphatase activity correlating with neurodevelopmental dysfunction and reduced DNA kinase activity correlating with neurodegeneration. In summary, these data implicate reduced rates of SSBR, not DSBR, as the source of both neurodevelopmental and neurodegenerative pathology in PNKP-mutated disease, and the extent and nature of this reduction as the primary determinant of disease severity.
Department of Human Genetics Hannover Medical School Hannover Germany
Genome Damage and Stability Centre University of Sussex Falmer Brighton BN1 9RQ UK
Section of Genetics and Biotechnology School of Biology University of Costa Rica San José Costa Rica
Citace poskytuje Crossref.org
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- $a Hereditary mutations in polynucleotide kinase-phosphatase (PNKP) result in a spectrum of neurological pathologies ranging from neurodevelopmental dysfunction in microcephaly with early onset seizures (MCSZ) to neurodegeneration in ataxia oculomotor apraxia-4 (AOA4) and Charcot-Marie-Tooth disease (CMT2B2). Consistent with this, PNKP is implicated in the repair of both DNA single-strand breaks (SSBs) and DNA double-strand breaks (DSBs); lesions that can trigger neurodegeneration and neurodevelopmental dysfunction, respectively. Surprisingly, however, we did not detect a significant defect in DSB repair (DSBR) in primary fibroblasts from PNKP patients spanning the spectrum of PNKP-mutated pathologies. In contrast, the rate of SSB repair (SSBR) is markedly reduced. Moreover, we show that the restoration of SSBR in patient fibroblasts collectively requires both the DNA kinase and DNA phosphatase activities of PNKP, and the fork-head associated (FHA) domain that interacts with the SSBR protein, XRCC1. Notably, however, the two enzymatic activities of PNKP appear to affect different aspects of disease pathology, with reduced DNA phosphatase activity correlating with neurodevelopmental dysfunction and reduced DNA kinase activity correlating with neurodegeneration. In summary, these data implicate reduced rates of SSBR, not DSBR, as the source of both neurodevelopmental and neurodegenerative pathology in PNKP-mutated disease, and the extent and nature of this reduction as the primary determinant of disease severity.
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