circROBO1 promotes prostate cancer growth and enzalutamide resistance via accelerating glycolysis

Background and aim: As non-coding RNAs, circular RNAs (circRNAs) contribute to the progression of malignancies by regulating various biological processes. In prostate cancer, however, there is still a lack of understanding regarding the potential molecular pathways and roles of circRNAs. Methods: Lo...

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Autores principales: Zhou, Zhigang, Qin, Jing, Song, Cailu, Wu, Tao, Quan, Qiang, Zhang, Yan, Zou, Yani, Liu, Lingrui, Tang, Hailin, Zhao, Jianfu
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Ivyspring International Publisher 2023
Materias:
Research Paper
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10475366/
https://www.ncbi.nlm.nih.gov/pubmed/37670963
http://dx.doi.org/10.7150/jca.86940
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author Zhou, Zhigang
Qin, Jing
Song, Cailu
Wu, Tao
Quan, Qiang
Zhang, Yan
Zou, Yani
Liu, Lingrui
Tang, Hailin
Zhao, Jianfu
author_facet Zhou, Zhigang
Qin, Jing
Song, Cailu
Wu, Tao
Quan, Qiang
Zhang, Yan
Zou, Yani
Liu, Lingrui
Tang, Hailin
Zhao, Jianfu
author_sort Zhou, Zhigang
collection PubMed
description Background and aim: As non-coding RNAs, circular RNAs (circRNAs) contribute to the progression of malignancies by regulating various biological processes. In prostate cancer, however, there is still a lack of understanding regarding the potential molecular pathways and roles of circRNAs. Methods: Loss-off function experiments were performed to investigate the potential biological function of circRNA in the progression of prostate cancer. Western blot, qRT-PCR, and IHC assay were used to examine the expression level of different genes or circRNAs. Further molecular biology experiments were conducted to uncover the molecular mechanism underlying circRNA in prostate cancer using dual luciferase reporter and RNA immunoprecipitation (RIP) assays. Results: A novel circRNA (hsa_circ_0124696, named circROBO1) was identified as a significantly upregulated circRNA in both prostate cancer cells and tissues. Suppression of circROBO1 significantly attenuated the proliferation of prostate cancer cells. In addition, we found that the knockdown of circROBO1 remarkably increased the sensitivity of prostate cancer to enzalutamide treatment. A deceleration in glycolysis rate was observed after inhibition of circROBO1, which could suppress prostate cancer growth and overcome resistance to enzalutamide. Our results revealed that circROBO1 promotes prostate cancer growth and enzalutamide resistance via accelerating glycolysis. Conclusion: Our study identified the biological role of the circROBO1-miR-556-5p-PGK1 axis in the growth and enzalutamide resistance of prostate cancer, which is the potential therapeutic target of prostate cancer.
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spelling pubmed-104753662023-09-05 circROBO1 promotes prostate cancer growth and enzalutamide resistance via accelerating glycolysis Zhou, Zhigang Qin, Jing Song, Cailu Wu, Tao Quan, Qiang Zhang, Yan Zou, Yani Liu, Lingrui Tang, Hailin Zhao, Jianfu J Cancer Research Paper Background and aim: As non-coding RNAs, circular RNAs (circRNAs) contribute to the progression of malignancies by regulating various biological processes. In prostate cancer, however, there is still a lack of understanding regarding the potential molecular pathways and roles of circRNAs. Methods: Loss-off function experiments were performed to investigate the potential biological function of circRNA in the progression of prostate cancer. Western blot, qRT-PCR, and IHC assay were used to examine the expression level of different genes or circRNAs. Further molecular biology experiments were conducted to uncover the molecular mechanism underlying circRNA in prostate cancer using dual luciferase reporter and RNA immunoprecipitation (RIP) assays. Results: A novel circRNA (hsa_circ_0124696, named circROBO1) was identified as a significantly upregulated circRNA in both prostate cancer cells and tissues. Suppression of circROBO1 significantly attenuated the proliferation of prostate cancer cells. In addition, we found that the knockdown of circROBO1 remarkably increased the sensitivity of prostate cancer to enzalutamide treatment. A deceleration in glycolysis rate was observed after inhibition of circROBO1, which could suppress prostate cancer growth and overcome resistance to enzalutamide. Our results revealed that circROBO1 promotes prostate cancer growth and enzalutamide resistance via accelerating glycolysis. Conclusion: Our study identified the biological role of the circROBO1-miR-556-5p-PGK1 axis in the growth and enzalutamide resistance of prostate cancer, which is the potential therapeutic target of prostate cancer. Ivyspring International Publisher 2023-08-21 /pmc/articles/PMC10475366/ /pubmed/37670963 http://dx.doi.org/10.7150/jca.86940 Text en © The author(s) https://creativecommons.org/licenses/by/4.0/This is an open access article distributed under the terms of the Creative Commons Attribution License (https://creativecommons.org/licenses/by/4.0/). See http://ivyspring.com/terms for full terms and conditions.
spellingShingle Research Paper
Zhou, Zhigang
Qin, Jing
Song, Cailu
Wu, Tao
Quan, Qiang
Zhang, Yan
Zou, Yani
Liu, Lingrui
Tang, Hailin
Zhao, Jianfu
circROBO1 promotes prostate cancer growth and enzalutamide resistance via accelerating glycolysis
title circROBO1 promotes prostate cancer growth and enzalutamide resistance via accelerating glycolysis
title_full circROBO1 promotes prostate cancer growth and enzalutamide resistance via accelerating glycolysis
title_fullStr circROBO1 promotes prostate cancer growth and enzalutamide resistance via accelerating glycolysis
title_full_unstemmed circROBO1 promotes prostate cancer growth and enzalutamide resistance via accelerating glycolysis
title_short circROBO1 promotes prostate cancer growth and enzalutamide resistance via accelerating glycolysis
title_sort circrobo1 promotes prostate cancer growth and enzalutamide resistance via accelerating glycolysis
topic Research Paper
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10475366/
https://www.ncbi.nlm.nih.gov/pubmed/37670963
http://dx.doi.org/10.7150/jca.86940
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