Your search keyword '"miR-33b-3p"' showing total 2 results

1. miR-33b-3p Acts as a Tumor Suppressor by Targeting DOCK4 in Prostate Cancer.

Author

Mei, Yu, Li, Kai, Zhang, Zhicheng, Li, Mengmeng, Yang, Hong, Wang, Hui, Huang, Xuemei, Li, Xinyuan, Shi, Shuhua, and Yang, Huanjie

Subjects

CASTRATION-resistant prostate cancer, PROSTATE cancer, BORTEZOMIB, ANDROGEN receptors, CELL migration inhibition, PROSTATE cancer patients, OVERALL survival, PROTEASOME inhibitors, METASTASIS

Abstract

Despite that androgen-deprivation therapy results in long-lasting responses, the disease inevitably progresses to metastatic castration-resistant prostate cancer. In this study, we identified miR-33b-3p as a tumor suppressor in prostate cancer. miR-33b-3p was significantly reduced in prostate cancer tissues, and the low expression of miR-33b-3p was correlated with poor overall survival of prostate cancer patients. Overexpression of miR-33b-3p inhibited both migration and invasion of highly metastatic prostate cancer cells whereas inhibition of miR-33b-3p promoted those processes in lowly metastatic cells. The in vivo results demonstrate that miR-33b-3p suppresses metastasis of tail vein inoculated prostate cancer cells to lung and lymph nodes in mice. DOCK4 was validated as the direct target of miR-33b-3p. miR-33b-3p decreased the expression of DOCK4 and restoration of DOCK4 could rescue miR-33b-3p inhibition on cell migration and invasion. Moreover, downregulation of miR-33b-3p was induced by bortezomib, the clinically used proteasome inhibitor, and overexpression of miR-33b-3p enhanced the insufficient inhibition of bortezomib on migration and invasion as well as metastasis of prostate cancer cells. In summary, our findings demonstrate that miR-33b-3p suppresses metastasis by targeting DOCK4 in prostate cancer. Our results suggest that enhancing miR-33b-3p expression may provide a promising therapeutic strategy for overcoming that proteasome inhibitor's poor efficacy against metastatic prostate cancer. [ABSTRACT FROM AUTHOR]

Published

2021

2. miR-33b-3p Acts as a Tumor Suppressor by Targeting DOCK4 in Prostate Cancer

Author

Zhicheng Zhang, Yu Mei, Kai Li, Xinyuan Li, Mengmeng Li, Hui Wang, Shuhua Shi, Huanjie Yang, Hong Yang, and Xuemei Huang

Subjects

Cancer Research, proteasome inhibitor, business.industry, Bortezomib, miR-33b-3p, Dock4, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, DOCK4, Cell migration, prostate cancer, medicine.disease, Metastasis, Prostate cancer, Oncology, Downregulation and upregulation, In vivo, medicine, Proteasome inhibitor, Cancer research, metastasis, business, RC254-282, medicine.drug

Abstract

Despite that androgen-deprivation therapy results in long-lasting responses, the disease inevitably progresses to metastatic castration-resistant prostate cancer. In this study, we identified miR-33b-3p as a tumor suppressor in prostate cancer. miR-33b-3p was significantly reduced in prostate cancer tissues, and the low expression of miR-33b-3p was correlated with poor overall survival of prostate cancer patients. Overexpression of miR-33b-3p inhibited both migration and invasion of highly metastatic prostate cancer cells whereas inhibition of miR-33b-3p promoted those processes in lowly metastatic cells. The in vivo results demonstrate that miR-33b-3p suppresses metastasis of tail vein inoculated prostate cancer cells to lung and lymph nodes in mice. DOCK4 was validated as the direct target of miR-33b-3p. miR-33b-3p decreased the expression of DOCK4 and restoration of DOCK4 could rescue miR-33b-3p inhibition on cell migration and invasion. Moreover, downregulation of miR-33b-3p was induced by bortezomib, the clinically used proteasome inhibitor, and overexpression of miR-33b-3p enhanced the insufficient inhibition of bortezomib on migration and invasion as well as metastasis of prostate cancer cells. In summary, our findings demonstrate that miR-33b-3p suppresses metastasis by targeting DOCK4 in prostate cancer. Our results suggest that enhancing miR-33b-3p expression may provide a promising therapeutic strategy for overcoming that proteasome inhibitor’s poor efficacy against metastatic prostate cancer.

Published

2021