Up-regulation of MiR-205 under hypoxia promotes epithelial-mesenchymal transition by targeting ASPP2
Up-regulation of MiR-205 under hypoxia promotes epithelial-mesenchymal transition by targeting ASPP2
The epithelial–mesenchymal transition (EMT) is one of the crucial procedures for cancer invasion and distal metastasis. Despite undergoing intensive studies, the mechanisms underlying EMT remain to be completely elucidated. Here, we identified that apoptosis-stimulating protein of p53-2 (ASPP2) is a novel target of MiR-205 in various cancers. Interestingly, the binding site of MiR-205 at the 3′-untranslated region of ASPP2 was highly conserved among different species. An inverse correlation between MiR-205 and ASPP2 was further observed in vivo in cervical cancers, suggesting MiR-205 may be an important physiological inhibitor of ASPP2. Hypoxia is a hallmark of solid tumor microenvironment and one of such conditions to induce EMT. Notably, MiR-205 was remarkably induced by hypoxia in cervical and lung cancer cells. A marked suppression of ASPP2 was observed simultaneously. Further studies confirmed that hypoxia-induced ASPP2 suppression was mainly attributed to the elevated MiR-205. Interestingly, the alteration of MiR-205/ASPP2 under hypoxia was accompanied with the decreased epithelial marker E-cadherin and increased mesenchymal marker Vimentin, as well as a morphological transition from the typical cobblestone-like appearance to the mesenchymal-like structure. More importantly, MiR-205 mimics or ASPP2 silencing similarly promoted EMT process. By contrast, ASPP2 recovery or MiR-205 inhibitor reversed MiR-205-dependent EMT. Further studies demonstrated that the newly revealed MiR-205/ASPP2 axis promoted cell migration and also increased cell proliferation both in vivo and in vitro. These data together implicated a critical impact of MiR-205/ASPP2 on promoting EMT. MiR-205/ASPP2 may be potential diagnostic and therapeutic biomarkers in cervical and lung cancers.
Wang, Xingwen
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Yu, Miao
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Zhao, Kunming
9dc7ea9c-bd36-4053-bb6c-5e4981594995
He, Mengmeng
89d89099-8fa2-426e-9a6e-0437b63bd673
Ge, Wenjie
b5a82544-4a0b-48c2-b4b4-64619a825bef
Sun, Yuhui
d0d851c8-fb65-4366-8ea9-27fba39a7cac
Wang, Yihua
f5044a95-60a7-42d2-87d6-5f1f789e3a7e
Sun, Haizhu
891549bf-33f7-49df-b93c-f9ffcf3d6756
Hu, Ying
d5168bf6-e58b-4533-877b-3c51e71d5b25
8 December 2016
Wang, Xingwen
4bb50664-1287-4f0e-ad66-956ca0eb89e0
Yu, Miao
5203b944-a64e-4010-b0eb-960d10d7ce50
Zhao, Kunming
9dc7ea9c-bd36-4053-bb6c-5e4981594995
He, Mengmeng
89d89099-8fa2-426e-9a6e-0437b63bd673
Ge, Wenjie
b5a82544-4a0b-48c2-b4b4-64619a825bef
Sun, Yuhui
d0d851c8-fb65-4366-8ea9-27fba39a7cac
Wang, Yihua
f5044a95-60a7-42d2-87d6-5f1f789e3a7e
Sun, Haizhu
891549bf-33f7-49df-b93c-f9ffcf3d6756
Hu, Ying
d5168bf6-e58b-4533-877b-3c51e71d5b25
Wang, Xingwen, Yu, Miao, Zhao, Kunming, He, Mengmeng, Ge, Wenjie, Sun, Yuhui, Wang, Yihua, Sun, Haizhu and Hu, Ying
(2016)
Up-regulation of MiR-205 under hypoxia promotes epithelial-mesenchymal transition by targeting ASPP2.
Cell Death and Disease, 7, [e2517].
(doi:10.1038/cddis.2016.412).
(PMID:27929537)
Abstract
The epithelial–mesenchymal transition (EMT) is one of the crucial procedures for cancer invasion and distal metastasis. Despite undergoing intensive studies, the mechanisms underlying EMT remain to be completely elucidated. Here, we identified that apoptosis-stimulating protein of p53-2 (ASPP2) is a novel target of MiR-205 in various cancers. Interestingly, the binding site of MiR-205 at the 3′-untranslated region of ASPP2 was highly conserved among different species. An inverse correlation between MiR-205 and ASPP2 was further observed in vivo in cervical cancers, suggesting MiR-205 may be an important physiological inhibitor of ASPP2. Hypoxia is a hallmark of solid tumor microenvironment and one of such conditions to induce EMT. Notably, MiR-205 was remarkably induced by hypoxia in cervical and lung cancer cells. A marked suppression of ASPP2 was observed simultaneously. Further studies confirmed that hypoxia-induced ASPP2 suppression was mainly attributed to the elevated MiR-205. Interestingly, the alteration of MiR-205/ASPP2 under hypoxia was accompanied with the decreased epithelial marker E-cadherin and increased mesenchymal marker Vimentin, as well as a morphological transition from the typical cobblestone-like appearance to the mesenchymal-like structure. More importantly, MiR-205 mimics or ASPP2 silencing similarly promoted EMT process. By contrast, ASPP2 recovery or MiR-205 inhibitor reversed MiR-205-dependent EMT. Further studies demonstrated that the newly revealed MiR-205/ASPP2 axis promoted cell migration and also increased cell proliferation both in vivo and in vitro. These data together implicated a critical impact of MiR-205/ASPP2 on promoting EMT. MiR-205/ASPP2 may be potential diagnostic and therapeutic biomarkers in cervical and lung cancers.
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Accepted/In Press date: 9 November 2016
e-pub ahead of print date: 8 December 2016
Published date: 8 December 2016
Organisations:
Biomedicine
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Local EPrints ID: 402551
URI: http://eprints.soton.ac.uk/id/eprint/402551
ISSN: 2041-4889
PURE UUID: b11c42f6-2604-47bf-9e6c-f43344e1a23a
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Date deposited: 11 Nov 2016 13:57
Last modified: 15 Mar 2024 03:52
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Contributors
Author:
Xingwen Wang
Author:
Miao Yu
Author:
Kunming Zhao
Author:
Mengmeng He
Author:
Wenjie Ge
Author:
Yuhui Sun
Author:
Haizhu Sun
Author:
Ying Hu
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