Qi P, Chen Y K, Cui R L, Heng R J, Xu S, He X Y, Yue A M, Kang J K, Li H H, Zhu Y X, Wang C, Chen Y L, Hu K, Yin Y Y, Xuan L X, Song Y
Department of Head and Neck Breast, Xinxiang Central Hospital, the Fourth Affiliated Hospital of Xinxiang Medical College, Xinxiang 453000, China.
College of Pharmacology, Xinxiang Medical University, Xinxiang 453000, China.
Zhonghua Zhong Liu Za Zhi. 2022 Jun 23;44(6):540-549. doi: 10.3760/cma.j.cn112152-20211231-00986.
To observe the platinum drugs resistance effect of N-acetyltransferase 10 (NAT10) overexpression in breast cancer cell line and elucidate the underlining mechanisms. The experiment was divided into wild-type (MCF-7 wild-type cells without any treatment) group, NAT10 overexpression group (H-NAT10 plasmid transfected into MCF-7 cells) and NAT10 knockdown group (SH-NAT10 plasmid transfected into MCF-7 cells). The invasion was detected by Transwell array, the interaction between NAT10 and PARP1 was detected by co-immunoprecipitation. The impact of NAT10 overexpression or knockdown on the acetylation level of PARP1 and its half-life was also determined. Immunostaining and IP array were used to detect the recruitment of DNA damage repair protein by acetylated PARP1. Flow cytometry was used to detect the cell apoptosis. Transwell invasion assay showed that the number of cell invasion was 483.00±46.90 in the NAT10 overexpression group, 469.00±40.50 in the NAT10 knockdown group, and 445.00±35.50 in the MCF-7 wild-type cells, and the differences were not statistically significant (>0.05). In the presence of 10 μmol/L oxaliplatin, the number of cell invasion was 502.00±45.60 in the NAT10 overexpression group and 105.00±20.50 in the NAT10 knockdown group, both statistically significant (<0.05) compared with 219.00±31.50 in wild-type cells. In the presence of 10 μmol/L oxaliplatin, NAT10 overexpression enhanced the binding of PARP1 to NAT10 compared with wild-type cells, whereas the use of the NAT10 inhibitor Remodelin inhibited the mutual binding of the two. Overexpression of NAT10 induced PARP1 acetylation followed by increased PARP1 binding to XRCC1, and knockdown of NAT10 expression reduced PARP1 binding to XRCC1. Overexpression of NAT10 enhanced PARP1 binding to LIG3, while knockdown of NAT10 expression decreased PARP1 binding to LIG3. In 10 μmol/L oxaliplatin-treated cells, the γH2AX expression level was 0.38±0.02 in NAT10 overexpressing cells and 1.36±0.15 in NAT10 knockdown cells, both statistically significant (<0.05) compared with 1.00±0.00 in wild-type cells. In 10 μmol/L oxaliplatin treated cells, the apoptosis rate was (6.54±0.68)% in the NAT10 overexpression group and (12.98±2.54)% in the NAT10 knockdown group, both of which were statistically significant (<0.05) compared with (9.67±0.37)% in wild-type cells. NAT10 overexpression enhances the binding of NAT10 to PARP1 and promotes the acetylation of PARP1, which in turn prolongs the half-life of PARP1, thus enhancing PARP1 recruitment of DNA damage repair related proteins to the damage sites, promoting DNA damage repair and ultimately the survival of breast cancer cells.
观察N - 乙酰转移酶10(NAT10)过表达对乳腺癌细胞系铂类药物耐药的影响,并阐明其潜在机制。实验分为野生型组(未作任何处理的MCF - 7野生型细胞)、NAT10过表达组(将H - NAT10质粒转染至MCF - 7细胞)和NAT10敲低组(将SH - NAT10质粒转染至MCF - 7细胞)。采用Transwell小室检测侵袭能力,通过免疫共沉淀检测NAT10与PARP1之间的相互作用。还测定了NAT10过表达或敲低对PARP1乙酰化水平及其半衰期的影响。利用免疫染色和免疫沉淀芯片检测乙酰化PARP1对DNA损伤修复蛋白的募集作用。采用流式细胞术检测细胞凋亡情况。Transwell侵袭实验显示,NAT10过表达组细胞侵袭数为483.00±46.90,NAT10敲低组为469.00±40.50,MCF - 7野生型细胞为445.00±35.50,差异无统计学意义(>0.05)。在10 μmol/L奥沙利铂存在的情况下,NAT10过表达组细胞侵袭数为502.00±45.60,NAT10敲低组为105.00±20.50,与野生型细胞的219.00±31.50相比,差异均有统计学意义(<0.05)。在10 μmol/L奥沙利铂存在的情况下,与野生型细胞相比,NAT10过表达增强了PARP1与NAT10的结合,而使用NAT10抑制剂Remodelin则抑制了两者的相互结合。NAT10过表达诱导PARP1乙酰化,随后PARP1与XRCC1的结合增加,NAT10表达敲低则降低了PARP1与XRCC1的结合。NAT10过表达增强了PARP1与LIG3的结合,而NAT10表达敲低则降低了PARP1与LIG3的结合。在10 μmol/L奥沙利铂处理的细胞中,NAT10过表达细胞中γH2AX表达水平为0.38±0.02,NAT10敲低细胞中为1.36±0.15,与野生型细胞的1.00±0.00相比,差异均有统计学意义(<0.05)。在10 μmol/L奥沙利铂处理的细胞中,NAT10过表达组细胞凋亡率为(6.54±0.68)%,NAT10敲低组为(12.98±2.54)%,与野生型细胞的(9.67±0.37)%相比,差异均有统计学意义(<0.05)。NAT10过表达增强了NAT10与PARP1的结合,促进了PARP1的乙酰化,进而延长了PARP1的半衰期,从而增强了PARP1将DNA损伤修复相关蛋白募集至损伤位点的能力,促进DNA损伤修复,最终促进乳腺癌细胞存活。
