ALT-EJ GENERA REARREGLOS CROMOSÓMICOS EN RESPUESTA A ETOPÓSIDO EN CÉLULAS HUMANAS CON LOS PRINCIPALES SISTEMAS DE REPARACIÓN DE RUPTURAS DE DOBLE CADENA COMPROMETIDOS

Journal of Basic and Applied Genetics Pub Date : 2023-07-01 DOI:10.35407/bag.2023.34.01.04

J. Kramar, M. Palmitelli, M. De Campos-Nebel, M. González-Cid

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Abstract

The antitumor drug Etoposide (ETO) induces DNA double-strand breaks (DSB) and is associated with the development of secondary neoplasms in treated patients. DSB are repaired by two main mechanisms, homologous recombination (HR) and classical non-homologous end joining (c-NHEJ). When HR and c-NHEJ are defective, DSB are repaired by the PARP-1-dependent alternative end-joining (alt-EJ) pathway. The involvement of alt-EJ in the progression of DSB induced by ETO in the G2 phase of human cells was analyzed. HeLa cells deficient in HR (cohesin RAD21 inhibition, HeLa RAD21kd) and their non-silencing control (HeLa NS) were established. Cells were treated with ETO in the presence of a chemical inhibitor of DNA-PKcs (DNA-PKi, c-NHEJ). In both cell lines, ETO-induced DSB (γH2AX+) in G2 phase were increased compared to their controls. The incorrect repair of DSB in DNA-PKcs- and RAD21-deficient cells caused a synergistic augment in chromatid exchanges and dicentric chromosomes in the first and second metaphase, respectively. In contrast, the frequency of dicentric chromosomes was reduced in PARP-1-deficient cells (HeLa PARP-1kd) following ETO treatment. In HeLa RAD21kd binucleated cells, DNA-PKi/ETO increased the percentage of cells with ≥20 γH2AX foci in the G1-postmitotic phase and of micronuclei at 96 h. A greater accumulation in G2/M was observed in HeLa NS treated with DNA-PKi/ETO compared with HeLa RAD21kd at 8 h. The cell cycle restarted in HeLa NS at 16 h; however, the G2/M accumulation was maintained in HeLa RAD21kd. Chromosomal rearrangements obtained when DNA-PKcs and RAD21 were absent and their decrease in HeLa PARP-1kd cells suggest that alt-EJ contributes to their formation. Key words: chromosomal aberrations, cell cycle, cohesin, double-strand breaks, DNA repair pathways

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ALT-EJ在人类细胞中对依托泊苷产生染色体重排，主要的双链断裂修复系统受损

抗肿瘤药物依托泊苷(ETO)诱导DNA双链断裂(DSB)，并与治疗患者继发性肿瘤的发展有关。DSB的修复主要有两种机制:同源重组(HR)和经典非同源末端连接(c-NHEJ)。当HR和c-NHEJ缺陷时，DSB通过parp -1依赖性替代末端连接(alt-EJ)途径修复。分析了alt-EJ在ETO诱导的人细胞G2期DSB过程中的作用。建立HR(内聚蛋白RAD21抑制，HeLa RAD21kd)缺陷的HeLa细胞及其非沉默对照(HeLa NS)。在DNA-PKcs化学抑制剂(DNA-PKi, c-NHEJ)存在的情况下，用ETO处理细胞。在两种细胞系中，eto诱导的DSB (γ - h2ax +)在G2期均高于对照组。在DNA-PKcs-和rad21缺陷细胞中，DSB的错误修复分别导致染色单体交换和双中心染色体在第一中期和第二中期的协同增加。相比之下，ETO治疗后，parp -1缺陷细胞(HeLa PARP-1kd)的双中心染色体频率降低。在HeLa RAD21kd双核细胞中，DNA-PKi/ETO增加了g1 -有丝分裂后≥20 γ - h2ax灶的细胞百分比和96 h的微核百分比。与HeLa RAD21kd相比，DNA-PKi/ETO处理的HeLa NS在8 h时观察到更多的G2/M积累，16 h时细胞周期重新开始;然而，在海拉RAD21kd中，G2/M积累保持不变。当DNA-PKcs和RAD21缺失时，HeLa PARP-1kd细胞中出现了染色体重排，它们的减少表明alt-EJ有助于它们的形成。关键词:染色体畸变，细胞周期，内聚蛋白，双链断裂，DNA修复途径

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Journal of Basic and Applied Genetics

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