Exploring novel targets for non-small cell lung cancer (NSCLC) remains of utmost importance. This study focused on ORC6 (origin recognition complex subunit 6), investigating its expression and functional significance within NSCLC. Analysis of the TCGA-lung adenocarcinoma database revealed a notable increase in ORC6 expression in lung adenocarcinoma tissues, correlating with reduced overall survival, advanced disease stages, and other key clinical parameters. Additionally, in patients undergoing surgical resection of NSCLC at a local hospital, ORC6 mRNA and protein levels were elevated in NSCLC tissues while remaining low in adjacent normal tissues. Comprehensive bioinformatics analyses across various cancers suggested that ORC6 might play a significant role in crucial cellular processes, such as mitosis, DNA synthesis and repair, and cell cycle progression. Knocking down ORC6 using virus-delivered shRNA in different NSCLC cells, both primary and immortalized, resulted in a significant hindrance to cell proliferation, cell cycle progression, migration and invasion, accompanied by caspase-apoptosis activation. Similarly, employing CRISPR-sgRNA for ORC6 knockout (KO) exhibited significant anti-NSCLC cell activity. Conversely, increasing ORC6 levels using a viral construct augmented cell proliferation and migration. Silencing or knockout of ORC6 in primary NSCLC cells led to reduced expression of several key cyclins, including Cyclin A2, Cyclin B1, and Cyclin D1, whereas their levels increased in NSCLC cells overexpressing ORC6. In vivo experiments demonstrated that intratumoral injection of ORC6 shRNA adeno-associated virus markedly suppressed the growth of primary NSCLC cell xenografts. Reduced ORC6 levels, downregulated cyclins, and increased apoptosis were evident in ORC6-silenced NSCLC xenograft tissues. In summary, elevated ORC6 expression promotes NSCLC cell growth.
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