Api5 Regulates Genomic Stability and Chemotherapy Resistance in Cancer

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Abstract

Api5 is elevated in a number of cancers and is associated with many hallmarks of cancer, including resistance to apoptosis, immune escape, stemness, chemotherapy resistance, high proliferation, and cell-cycle dysregulation. In this study, we identified the DNA and chromatin-binding activities of Api5 in tumorigenic cells, as well as its association with genomic instability and chemotherapy resistance. Knockdown of Api5 resulted in reduced nuclear volume, DNA content, and chromosome number, and increased sensitivity to DNA damage. The survival of Api5-knockdown cells decreased following UV and cisplatin treatments due to the accumulation of damaged DNA and inefficient nucleotide excision repair. Interestingly, Api5 knockdown cells also exhibited low pChk1 levels following UV damage. Further, we confirmed the chemotherapy resistance phenotype in cancers with elevated Api5 levels, demonstrating that xenograft tumours with Api5 knockdown responded better to cisplatin, with significant tumour regression.

Summary

Apoptosis inhibitor 5 (Api5) contributes to chemotherapy resistance by conferring a survival advantage and promoting efficient DNA repair following genotoxic stress through regulation of Chk1 activation.

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