Abstract Colorectal cancer (CRC) is the second deadliest cancer, and over 40-50% of patients develop metastasis during their fight against the disease. CRC survival rate drops from 90% to 14% when the condition is contained within the colon vs. when found at distant sites within the body. Metastasis is a multistep process and one of the critical steps for cancer cells to acquire anoikis resistance to survive after detachment from the primary sites and travel through the circulatory and lymphatic systems to distant target organs. Thus, understanding the molecular players involved in the anoikis process and metastasis could be vital for improving the survival of CRC patients. The aberrant expression of a long noncoding RNA (lncRNA) urothelial carcinoma-associated 1 (UCA1) has been identified in CRC. However, its role in metastasis processes is not yet well defined. Our preliminary results in the anchorage-independent growth (anoikis model) demonstrate increased expression of lncRNA UCA1. Moreover, the overexpression of lncRNA UCA1 led to high expression of stemness markers SOX2 and Kaiso, along with increased survival of anchorage-independent cells, which indicates a potential mechanistic role of UCA1 in anoikis resistance. Thus, in this study, we propose elucidating the role(s) of UCA1 and its associated signaling pathways during anoikis resistance. We hypothesize that the overexpression of lncRNA UCA1 enhances CRC metastasis through anoikis resistance-associated signaling pathways. We will utilize Isogenic CRC cell lines SW480 (oncogenic) and SW620 (metastatic) to understand the mechanistic regulation of anoikis resistance. Lentiviral transduced stable overexpression (SW480+UCA1//GFP) and knockdown (SW620+CRISPRgUCA1) cell lines have been utilized for this study. After subjecting these cell lines (along with control) to anchorage-independent growth conditions, cell cycle, pro-survival, anti-apoptotic, stemness, and glucose metabolism factors will be analyzed through RT-PCR, Digital Droplet PCR (ddPCR), western blot, and FACS analyses. Utilizing the same model, we will examine lncRNA UCA1 linked anoikis resistance specific phosphorylation profiles of kinases, their protein substrates using the Proteome Profiler Phospho-Human Phospho-Kinase Array. Citation Format: Sophia Leslie, Kyle D. Doxtater, Samantha Lopez, Kristopher Ezell, Adithya Anilkumar, Amayrani Sanchez, Bilal Hafeez, Tamer Oraby, Meena Jaggi, Timothy Loy, Subhash Chauhan, Manish K. Tripathi. Signaling pathways modulated by lncRNA UCA1 during anchorage-independent growth in colorectal cancer [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2023; Part 1 (Regular and Invited Abstracts); 2023 Apr 14-19; Orlando, FL. Philadelphia (PA): AACR; Cancer Res 2023;83(7_Suppl):Abstract nr 1291.
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