ZNF165: A Pan-Cancer Biomarker with Prognostic and Therapeutic Potential

Background The role of ZNF165 in only a few tumors has been reported. ZNF165 plays an important role in liver cancer, gastric cancer, and breast cancer, especially in regulating the immune microenvironment, promoting tumor cell proliferation and migration, and serving as a potential target for immunotherapy.Objective This study aimed to enhance an understanding of how the ZNF165 gene functions and influences cancer development.Methods Using a suite of online resources, including TIMER, TCGA, GTEx, GEPIA2, cBioPortal, TIMER2, STRING, DAVID, RNAactDrug, CancerSEA, and UCSC, along with comprehensive statistical analyses, we conducted a thorough investigation of the pan-cancer landscape of ZNF165. This study encompassed an assessment of ZNF165 levels, their associations with patient outcomes, and clinical correlates. We examined the interplay between ZNF165 and key cancer biomarkers, such as Microsatellite Instability (MSI), Tumor Mutational Burden (TMB), immune cell infiltration, and the expression of immune checkpoint genes. We delved into the genetic variations of ZNF165, its biological roles across various cancer types, and its potential links to drug responsiveness. We analyzed single-cell expression patterns of ZNF165 and their implications for the functional dynamics of cancer. We employed quantitative Reverse Transcription PCR (qRT-PCR) to measure ZNF165 levels in Ovarian Cancer (OC) cell lines.Results ZNF165 expression displayed aberrations across a diverse range of human cancers and exhibited correlations with clinical stages. High ZNF165 expression in KIRC, KIRP, STAD, and UCEC was significantly associated with poor overall survival. ZNF165 has encouraging diagnostic value in specific tumor types, with gene amplification identified as the predominant genetic alteration. Our analysis further uncovered significant associations between ZNF165 levels and MSI across three distinct cancer types, as well as with TMB in six different malignancies. We detected substantial correlations between ZNF165 levels and immune cell infiltration, as well as the expression of immune checkpoint genes. ZNF165 was found to be involved in several prevalent signaling pathways across various cancer types. ZNF165 may potentially contribute to chemotherapy and chemoresistance, and was observed to be involved in cancer progression. A ceRNA regulatory network involving AFDN-DT, miR-191-5p, and ZNF165 was constructed for OC, revealing significantly elevated ZNF165 levels in OC cell lines. Dysregulated ZNF165 expression across a spectrum of malignancies might play a role in cancer initiation and advancement via multiple biological pathways.Conclusion ZNF165 may serve as a promising therapeutic target for the treatment of cancer in human patients.