Cell Death Discovery (Mar 2022)
CAMTA1–PPP3CA–NFATc4 multi-protein complex mediates the resistance of colorectal cancer to oxaliplatin
Abstract
Abstract Colorectal cancer is a major contributor to the worldwide prevalence of cancer-related deaths. Metastasis and chemoresistance are the two main causes for colorectal cancer treatment failure, and thus, high mortality. Calmodulin-binding transcription activator 1 (CAMTA1) is involved in tumor growth and development, but its mechanisms of action in the development of colorectal cancer and chemoresistance are poorly understood. Here, we report that Camta1 is a tumor suppressor. Immunohistochemical staining and western blotting analyses of normal and colorectal cancer tissues showed a significantly low expression of Camta1 expression in colorectal cancer tissues, when compared to adjacent normal tissues. In functional in vitro experiments, we observed that Camta1 overexpression significantly decreased the proliferation and invasion capacity of SW620 and SW480 cells, whereas Camta1 knockdown displayed a significant increase in the proliferative and invasive ability of these cells. Subsequently, we examined the effects of Camta1 overexpression and knockdown on the resistance of colorectal cancer cells to oxaliplatin, a common chemotherapeutic drug. Interestingly, the sensitivity of Camta1-overexpressed cells to oxaliplatin was increased, whereas that of Camta1-silenced cells to the same chemotherapeutic drug was decreased. Furthermore, Camta1 knockdown upregulated nuclear factor of activated T cells, cytoplasmic 4 (Nfatc4) mRNA, and protein levels in colorectal cancer cells and downregulated the phosphorylated NFATc4 level. By contrast, Nfatc4 knockdown reversed the resistance of colorectal cancer cells to oxaliplatin caused by Camta1 knockdown. In addition, we show that protein phosphatase 3 catalytic subunit alpha (PPP3CA) is essential for the expression and phosphorylation of NFATc4 caused by Camta1 knockdown, as well as the proliferation, invasion, and chemoresistance of colorectal cancer cells. We show that PPP3CA and CAMTA1 competitively bind to NFATc4, and Camta1 knockdown promotes the dephosphorylation of PPP3CA and suppresses the phosphorylation of NFATc4. To verify the role of CAMTA1 in oxaliplatin resistance in colorectal cancer, we established a xenograft mouse model and show agreement between in vitro and in vivo results.
