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SLC4A4 promotes prostate cancer progression in vivo and in vitro via AKT-mediated signalling pathway

Zelin Liu, Qinghua Wang, Guanzhong Zhai, Shuai Ke, Xi Yu, Jia Guo

2022Cancer Cell International22 citationsDOIOpen Access PDF

Abstract

BACKGROUND: cotransporter isoform 1 (NBCe1), in the development and progression of PCa. METHODS: The expression levels of SLC4A4 in PCa and normal prostate tissues were evaluated by immunohistochemistry. The SLC4A4 knockdown cell model was structured by lentiviral infection, and the knockdown efficiency was validated by RT-qPCR and Western blotting. The effects of SLC4A4 knockdown on cell proliferation, apoptosis and cycle, migration, and invasion were detected by Celigo cell counting assay and CCK-8 assay, flow cytometry analysis, wound-healing, and Transwell assay, respectively. Tumor growth in nude mice was surveyed by in vivo imaging and Ki-67 staining. Furthermore, underlying mechanism of SLC4A4 silence induced inhibition of PCa progression was explored by human phospho-kinase array. RESULTS: Our results revealed that SLC4A4 expression was up-regulated in PCa tissues and human PCa cell lines. High expression of SLC4A4 in tumor specimens was significantly correlated with disease progression. SLC4A4 knockdown inhibited cell proliferation, migration and invasion, while facilitated apoptosis, which was also confirmed in vivo. Moreover, SLC4A4 promoted PCa progression through the AKT-mediated signalling pathway. CONCLUSION: The results of this study indicated that SLC4A4 overexpression was closely associated with the progression of PCa; SLC4A4 knockdown suppressed PCa development in vitro and in vivo. SLC4A4 acts as a tumor promotor in PCa by regulating key components of the AKT pathway and may therefore act as a potential therapeutic target for PCa treatment.

Topics & Concepts

Gene knockdownBiologyCancer researchProtein kinase BCell growthIn vivoProstate cancerFlow cytometryCellApoptosisCancerMolecular biologySignal transductionCell biologyGeneticsBiotechnologyBiochemistryAmino Acid Enzymes and MetabolismIon Transport and Channel RegulationMetabolism, Diabetes, and Cancer