2021
Regulation of the Cell-Intrinsic DNA Damage Response by the Innate Immune Machinery
Hayman TJ, Glazer PM. Regulation of the Cell-Intrinsic DNA Damage Response by the Innate Immune Machinery. International Journal Of Molecular Sciences 2021, 22: 12761. PMID: 34884568, PMCID: PMC8657976, DOI: 10.3390/ijms222312761.Peer-Reviewed Original ResearchConceptsDNA double-strand breaksInnate immune machineryGenomic integrityDNA-damaging therapiesDNA damage response systemDNA DSB repair pathwaysImmune machineryCell-autonomous responsesDNA damage responseDSB repair pathwaysDouble-strand breaksDamage responseInnate immune pathwaysRepair pathwaysCell survivalDNA damageUnderappreciated roleProper repairImmune pathwaysMachineryPathwayAdaptive immune responsesSignificant normal tissue toxicityMost therapeutic studiesImmune response
2018
PTEN Regulates Non-Homologous End Joining by Epigenetic Induction of NHEJ1/XLF
Sulkowski PL, Scanlon SE, Oeck S, Glazer PM. PTEN Regulates Non-Homologous End Joining by Epigenetic Induction of NHEJ1/XLF. Molecular Cancer Research 2018, 16: molcanres.0581.2017. PMID: 29739874, PMCID: PMC6072556, DOI: 10.1158/1541-7786.mcr-17-0581.Peer-Reviewed Original ResearchConceptsDNA double-strand breaksKey DNA repair pathwaysCytotoxic DNA lesionsXRCC4-like factorPatient-derived melanomasDNA repair pathwaysDouble-strand breaksNovel regulatory roleTumor suppressor geneSuppression of PTENHistone acetyltransferasesDSB repairGenomic analysisNHEJ defectsNonhomologous endRepair pathwaysGene promoterNovel functionRegulatory acetylationNHEJ deficiencyDNA lesionsRegulatory roleSuppressor geneNHEJ DSB repairNHEJKrebs-cycle-deficient hereditary cancer syndromes are defined by defects in homologous-recombination DNA repair
Sulkowski PL, Sundaram RK, Oeck S, Corso CD, Liu Y, Noorbakhsh S, Niger M, Boeke M, Ueno D, Kalathil AN, Bao X, Li J, Shuch B, Bindra RS, Glazer PM. Krebs-cycle-deficient hereditary cancer syndromes are defined by defects in homologous-recombination DNA repair. Nature Genetics 2018, 50: 1086-1092. PMID: 30013182, PMCID: PMC6072579, DOI: 10.1038/s41588-018-0170-4.Peer-Reviewed Original ResearchConceptsDNA double-strand breaksPGL/PCCDNA repair deficiency syndromeHomologous recombination DNA repair pathwayDNA repair pathwaysDouble-strand breaksHomologous recombination DNA repairSynthetic lethal targetingGenomic integrityDNA repairFumarate hydrataseMechanistic basisCancer predispositionFunction mutationsGermline lossKrebs cycleSuccinate dehydrogenaseHereditary paragangliomaRespectively1–3Ribose polymerase inhibitorsHereditary leiomyomatosisHereditary cancer syndromesCancer syndromesTumor cellsPolymerase inhibitors
2010
Suppression of homology-dependent DNA double-strand break repair induces PARP inhibitor sensitivity in VHL -deficient human renal cell carcinoma
Scanlon S, Hegan D, Sulkowski P, Glazer P. Suppression of homology-dependent DNA double-strand break repair induces PARP inhibitor sensitivity in VHL -deficient human renal cell carcinoma. Oncotarget 2010, 5: 2-2. DOI: 10.18632/oncotarget.23445.Peer-Reviewed Original ResearchDouble-strand break repairDNA double-strand break repairBreak repairHomologous recombinationVHL-deficient renal cancer cellsHomology-dependent DNA double-strand break repairGene expressionHuman clear cell renal carcinomaHuman renal cell carcinomaVon Hippel-Lindau (VHL) tumor suppressor geneDNA double-strand breaksDNA repair gene expressionVHL-deficient cellsHr gene expressionRadiation-induced DNA double-strand breaksImpaired DNA double-strand break repairPro-growth stateDouble-strand breaksDNA repair genesRepair gene expressionDNA repair defectsTumor suppressor genePARP inhibitor sensitivityRenal cancer cellsTranscriptional reprogramming