Downregulation ofmicroRNA‐326 enhancesZNF322Aexpression, transcriptional activity and tumorigenic effects in lung cancer

Abstract

AbstractZinc finger protein ZNF322A is an oncogenic transcription factor. Overexpression of ZNF322A activates pro‐metastasis, cancer stemness, and neo‐angiogenesis‐related genes to enhance lung cancer progression. However, the upstream regulator of ZNF322A is not well defined. Dysregulation of microRNAs (miRNAs) can mediate cancer cell growth, migration, and invasion to promote tumorigenesis. Here, we uncover the mechanism of miRNA‐mediated transcriptional regulation in ZNF322A‐driven oncogenic events. ZNF322A harbors several putative miRNA‐binding sites in the 3′‐untranslated region (UTR). We validated that miR‐326 downregulatedZNF322A‐3′‐UTR luciferase activity and mRNA expression. Furthermore, miR‐326 suppressed the expression of ZNF322A‐driven cancer‐associated genes such ascyclin D1andalpha‐adducin. Reconstitution experiments by ectopic overexpression of ZNF322A abolished miR‐326‐suppressed cancer cell proliferation and cell migration capacity. Moreover, miR‐326 attenuated ZNF322A‐induced tumor growth and lung tumor metastasis in vivo. Clinically, the expression of miR‐326 negatively correlated withZNF322AmRNA expression in surgically resected tissues from 120 non‐small cell lung cancer (NSCLC) patients. Multivariate Cox regression analysis demonstrated that NSCLC patients with low miR‐326/high ZNF322A profile showed poor overall survival. Our results reveal that the deregulated expression of miR‐326 leads to hyperactivation of ZNF322A‐driven oncogenic signaling. Targeting the miR‐326/ZNF322A axis would provide new therapeutic strategies for lung cancer patients.