2015
Disruption of the mevalonate pathway induces dNTP depletion and DNA damage
Sánchez C, Martín J, Jin JS, Dávalos A, Zhang W, de la Peña G, Martínez-Botas J, Rodríguez-Acebes S, Suárez Y, Hazen MJ, Gómez-Coronado D, Busto R, Cheng YC, Lasunción MA. Disruption of the mevalonate pathway induces dNTP depletion and DNA damage. Biochimica Et Biophysica Acta 2015, 1851: 1240-1253. PMID: 26055626, DOI: 10.1016/j.bbalip.2015.06.001.Peer-Reviewed Original ResearchMeSH KeywordsAdenosine TriphosphateCarboxy-LyasesCell Cycle CheckpointsCell Line, TumorCell ProliferationCheckpoint Kinase 1DeoxyribonucleosidesDNA DamageDNA ReplicationGene Expression RegulationHalogenationHemiterpenesHistonesHL-60 CellsHumansLymphocytesMevalonic AcidOrganophosphorus CompoundsProtein KinasesRNA, Small InterferingSignal TransductionConceptsMevalonate diphosphate decarboxylaseDiphosphate decarboxylaseCell cycle progressionDNA replicationCycle progressionMevalonate pathwayDNA damageDNA damage responseNon-sterol isoprenoidsCell proliferationInhibition of Chk1Cholesterol biosynthesis pathwayMassive cell deathSubsequent DNA damageΓ-H2AX formationCell cycle arrestReplication stressBiosynthesis pathwayΓ-H2AX fociChk1 activationDamage responseIsopentenyl diphosphateMitosis completionCell divisionDNTP depletion
1999
Cholesterol starvation decreases P34cdc2 kinase activity and arrests the cell cycle at G2
Martínez‐Botas J, Suárez Y, Ferruelo A, Gómez‐Coronado D, Lasunció M. Cholesterol starvation decreases P34cdc2 kinase activity and arrests the cell cycle at G2. The FASEB Journal 1999, 13: 1359-1370. PMID: 10428760, DOI: 10.1096/fasebj.13.11.1359.Peer-Reviewed Original Research