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Base excision repair accessory factors in senescence avoidance and resistance to treatments 被引量:1
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作者 elise vickridge Camila C.F.Faraco Alain Nepveu 《Cancer Drug Resistance》 2022年第3期703-720,共18页
Cancer cells,in which the RAS and PI3K pathways are activated,produce high levels of reactive oxygen species(ROS),which cause oxidative DNA damage and ultimately cellular senescence.This process has been documented in... Cancer cells,in which the RAS and PI3K pathways are activated,produce high levels of reactive oxygen species(ROS),which cause oxidative DNA damage and ultimately cellular senescence.This process has been documented in tissue culture,mouse models,and human pre-cancerous lesions.In this context,cellular senescence functions as a tumour suppressor mechanism.Some rare cancer cells,however,manage to adapt to avoid senescence and continue to proliferate.One well-documented mode of adaptation involves increased production of antioxidants often associated with inactivation of the KEAP1 tumour suppressor gene and the resulting upregulation of the NRF2 transcription factor.In this review,we detail an alternative mode of adaptation to oxidative DNA damage induced by ROS:the increased activity of the base excision repair(BER)pathway,achieved through the enhanced expression of BER enzymes and DNA repair accessory factors.These proteins,exemplified here by the CUT domain proteins CUX1,CUX2,and SATB1,stimulate the activity of BER enzymes.The ensued accelerated repair of oxidative DNA damage enables cancer cells to avoid senescence despite high ROS levels.As a by-product of this adaptation,these cancer cells exhibit increased resistance to genotoxic treatments including ionizing radiation,temozolomide,and cisplatin.Moreover,considering the intrinsic error rate associated with DNA repair and translesion synthesis,the elevated number of oxidative DNA lesions caused by high ROS leads to the accumulation of mutations in the cancer cell population,thereby contributing to tumour heterogeneity and eventually to the acquisition of resistance,a major obstacle to clinical treatment. 展开更多
关键词 Base excision repair reactive oxygen species DNA repair accessory factor oxidative DNA damage resistance to treatment tumour heterogeneity acquisition of resistance
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