A novel miR-1291-ERRα-CPT1C axis modulates tumor cell proliferation, metabolism and tumorigenesis

Rationale: MicroRNAs are known to influence the development of a variety of cancers. Previous studies revealed that miR-1291 has antiproliferative functions in cancer cells. Carnitine palmitoyltransferase 1C (CPT1C) has a vital role in mitochondrial energy metabolism and modulation of cancer cell pr...

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Autores principales: Chen, Yixin, Zhou, Yanying, Han, Fangwei, Zhao, Yingyuan, Tu, Meijuan, Wang, Yongtao, Huang, Can, Fan, Shicheng, Chen, Panpan, Yao, Xinpeng, Guan, Lihuan, Yu, Ai-Ming, Gonzalez, Frank J., Huang, Min, Bi, Huichang
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Ivyspring International Publisher 2020
Materias:
Research Paper
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7330864/
https://www.ncbi.nlm.nih.gov/pubmed/32641987
http://dx.doi.org/10.7150/thno.44877
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author Chen, Yixin
Zhou, Yanying
Han, Fangwei
Zhao, Yingyuan
Tu, Meijuan
Wang, Yongtao
Huang, Can
Fan, Shicheng
Chen, Panpan
Yao, Xinpeng
Guan, Lihuan
Yu, Ai-Ming
Gonzalez, Frank J.
Huang, Min
Bi, Huichang
author_facet Chen, Yixin
Zhou, Yanying
Han, Fangwei
Zhao, Yingyuan
Tu, Meijuan
Wang, Yongtao
Huang, Can
Fan, Shicheng
Chen, Panpan
Yao, Xinpeng
Guan, Lihuan
Yu, Ai-Ming
Gonzalez, Frank J.
Huang, Min
Bi, Huichang
author_sort Chen, Yixin
collection PubMed
description Rationale: MicroRNAs are known to influence the development of a variety of cancers. Previous studies revealed that miR-1291 has antiproliferative functions in cancer cells. Carnitine palmitoyltransferase 1C (CPT1C) has a vital role in mitochondrial energy metabolism and modulation of cancer cell proliferation. Since both miR-1291 and CPT1C regulate tumor cell metabolism and cancer progression, we hypothesized that they might be regulated synergistically. Methods: A series of cell phenotype indicators, such as BrdU, colony formation, cell cycle, ATP production, ROS accumulation and cell ability to resist metabolic stress, were performed to clarify the effects of miR-1291 and ERRα expression on tumor cell proliferation and metabolism. A xenograft tumor model was used to evaluate cell tumorigenesis. Meta-analysis and bioinformatic prediction were applied in the search for the bridge-link between miR-1291 and CPT1C. RT-qPCR, western-blot and IHC analysis were used for the detection of mRNA and protein expression. Luciferase assays and ChIP assays were conducted for in-depth mechanism studies. Results: The expression of miR-1291 inhibited growth and tumorigenesis as a result of modulation of metabolism. CPT1C expression was indirectly and negatively correlated with miR-1291 levels. ESRRA was identified as a prominent differentially expressed gene in both breast and pancreatic cancer samples, and estrogen-related receptor α (ERRα) was found to link miR-1291 and CPT1C. MiR-1291 targeted ERRα and CPT1C was identified as a newly described ERRα target gene. Moreover, ERRα was found to influence cancer cell metabolism and proliferation, consistent with the cellular changes caused by miR-1291. Conclusion: This study demonstrated the existence and mechanism of action of a novel miR-1291-ERRα-CPT1C cancer metabolism axis that may provide new insights and strategies for the development of miRNA-based therapies for malignant cancers.
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spelling pubmed-73308642020-07-07 A novel miR-1291-ERRα-CPT1C axis modulates tumor cell proliferation, metabolism and tumorigenesis Chen, Yixin Zhou, Yanying Han, Fangwei Zhao, Yingyuan Tu, Meijuan Wang, Yongtao Huang, Can Fan, Shicheng Chen, Panpan Yao, Xinpeng Guan, Lihuan Yu, Ai-Ming Gonzalez, Frank J. Huang, Min Bi, Huichang Theranostics Research Paper Rationale: MicroRNAs are known to influence the development of a variety of cancers. Previous studies revealed that miR-1291 has antiproliferative functions in cancer cells. Carnitine palmitoyltransferase 1C (CPT1C) has a vital role in mitochondrial energy metabolism and modulation of cancer cell proliferation. Since both miR-1291 and CPT1C regulate tumor cell metabolism and cancer progression, we hypothesized that they might be regulated synergistically. Methods: A series of cell phenotype indicators, such as BrdU, colony formation, cell cycle, ATP production, ROS accumulation and cell ability to resist metabolic stress, were performed to clarify the effects of miR-1291 and ERRα expression on tumor cell proliferation and metabolism. A xenograft tumor model was used to evaluate cell tumorigenesis. Meta-analysis and bioinformatic prediction were applied in the search for the bridge-link between miR-1291 and CPT1C. RT-qPCR, western-blot and IHC analysis were used for the detection of mRNA and protein expression. Luciferase assays and ChIP assays were conducted for in-depth mechanism studies. Results: The expression of miR-1291 inhibited growth and tumorigenesis as a result of modulation of metabolism. CPT1C expression was indirectly and negatively correlated with miR-1291 levels. ESRRA was identified as a prominent differentially expressed gene in both breast and pancreatic cancer samples, and estrogen-related receptor α (ERRα) was found to link miR-1291 and CPT1C. MiR-1291 targeted ERRα and CPT1C was identified as a newly described ERRα target gene. Moreover, ERRα was found to influence cancer cell metabolism and proliferation, consistent with the cellular changes caused by miR-1291. Conclusion: This study demonstrated the existence and mechanism of action of a novel miR-1291-ERRα-CPT1C cancer metabolism axis that may provide new insights and strategies for the development of miRNA-based therapies for malignant cancers. Ivyspring International Publisher 2020-06-01 /pmc/articles/PMC7330864/ /pubmed/32641987 http://dx.doi.org/10.7150/thno.44877 Text en © The author(s) 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
Chen, Yixin
Zhou, Yanying
Han, Fangwei
Zhao, Yingyuan
Tu, Meijuan
Wang, Yongtao
Huang, Can
Fan, Shicheng
Chen, Panpan
Yao, Xinpeng
Guan, Lihuan
Yu, Ai-Ming
Gonzalez, Frank J.
Huang, Min
Bi, Huichang
A novel miR-1291-ERRα-CPT1C axis modulates tumor cell proliferation, metabolism and tumorigenesis
title A novel miR-1291-ERRα-CPT1C axis modulates tumor cell proliferation, metabolism and tumorigenesis
title_full A novel miR-1291-ERRα-CPT1C axis modulates tumor cell proliferation, metabolism and tumorigenesis
title_fullStr A novel miR-1291-ERRα-CPT1C axis modulates tumor cell proliferation, metabolism and tumorigenesis
title_full_unstemmed A novel miR-1291-ERRα-CPT1C axis modulates tumor cell proliferation, metabolism and tumorigenesis
title_short A novel miR-1291-ERRα-CPT1C axis modulates tumor cell proliferation, metabolism and tumorigenesis
title_sort novel mir-1291-errα-cpt1c axis modulates tumor cell proliferation, metabolism and tumorigenesis
topic Research Paper
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7330864/
https://www.ncbi.nlm.nih.gov/pubmed/32641987
http://dx.doi.org/10.7150/thno.44877
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