Institute of Biosciences and BioResources, National Research Council of Italy, Via Pietro Castellino 111, Naples, 80131, Italy.
Sci Rep. 2019 May 3;9(1):6889. doi: 10.1038/s41598-019-43394-1.
DNA alkylguanine DNA alkyltransferases (AGTs) are evolutionary conserved proteins that repair alkylation damage in DNA, counteracting the effects of agents inducing such lesions. Over the last years AGTs have raised considerable interest for both the peculiarity of their molecular mechanism and their relevance in cancer biology. AGT knock out mice show increased tumour incidence in response to alkylating agents, and over-expression of the human AGT protein in cancer cells is frequently associated with resistance to alkylating chemotherapy. While all data available point to a function of AGT proteins in the cell response to alkylation lesions, we report for the first time that one of the two AGT paralogs of the model organism C. elegans, called AGT-2, also plays unexpected roles in meiosis and early development under physiological conditions. Our data suggest a role for AGT-2 in conversion of homologous recombination intermediates into post-strand exchange products in meiosis, and show that agt-2 gene down-regulation, or treatment of animals with an AGT inhibitor results in increased number of germ cells that are incompatible with producing viable offspring and are eliminated by apoptosis. These results suggest possible functions for AGTs in cell processes distinct from repair of alkylating damage.
DNA 烷化鸟嘌呤 DNA 烷基转移酶(AGTs)是进化上保守的蛋白质,可修复 DNA 中的烷化损伤,抵消诱导此类损伤的试剂的作用。近年来,由于其独特的分子机制和在癌症生物学中的相关性,AGTs 引起了相当大的兴趣。AGT 敲除小鼠对烷化剂的肿瘤发生率增加,并且癌细胞中人类 AGT 蛋白的过度表达通常与对烷化化疗的耐药性有关。虽然所有现有数据都表明 AGT 蛋白在细胞对烷化损伤的反应中具有功能,但我们首次报道,模式生物秀丽隐杆线虫的两个 AGT 旁系同源物之一,称为 AGT-2,在生理条件下的减数分裂和早期发育中也具有意想不到的作用。我们的数据表明 AGT-2 在减数分裂中同源重组中间体转化为链间交换产物中起作用,并表明 agt-2 基因下调或用 AGT 抑制剂处理动物会导致产生可育后代的生殖细胞数量增加,并通过细胞凋亡消除。这些结果表明 AGTs 在与修复烷化损伤不同的细胞过程中可能具有功能。
