ELP2 negatively regulates osteoblastic differentiation impaired by tumor necrosis factor α in MC3T3–E1 cells through STAT3 activation

Tumor necrosis factor‐α (TNF‐α) is a pluripotent signaling molecule. The biological effect of TNF‐α includes slowing down osteogenic differentiation, which can lead to bone dysplasia in long‐term inflammatory microenvironments. Signal transducer and activator of transcription 3 (STAT3)‐interacting p...

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Autores principales: Xu, Chang‐Peng, Sun, Hong‐Tao, Yang, Ya‐Jun, Cui, Zhuang, Wang, Jian, Yu, Bin, Wang, Fa‐Zheng, Yang, Qing‐Po, Qi, Yong
Formato: Online Artículo Texto
Lenguaje:English
Publicado: John Wiley and Sons Inc. 2019
Materias:
Original Research Articles
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6618314/
https://www.ncbi.nlm.nih.gov/pubmed/30847950
http://dx.doi.org/10.1002/jcp.28440
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author Xu, Chang‐Peng
Sun, Hong‐Tao
Yang, Ya‐Jun
Cui, Zhuang
Wang, Jian
Yu, Bin
Wang, Fa‐Zheng
Yang, Qing‐Po
Qi, Yong
author_facet Xu, Chang‐Peng
Sun, Hong‐Tao
Yang, Ya‐Jun
Cui, Zhuang
Wang, Jian
Yu, Bin
Wang, Fa‐Zheng
Yang, Qing‐Po
Qi, Yong
author_sort Xu, Chang‐Peng
collection PubMed
description Tumor necrosis factor‐α (TNF‐α) is a pluripotent signaling molecule. The biological effect of TNF‐α includes slowing down osteogenic differentiation, which can lead to bone dysplasia in long‐term inflammatory microenvironments. Signal transducer and activator of transcription 3 (STAT3)‐interacting protein 1 (StIP1, also known as elongator complex protein 2, ELP2) play a role in inhibiting TNF‐α‐induced osteoblast differentiation. In the present study, we investigated whether and how ELP2 activation mediates the effects of TNF‐α on osteoblastic differentiation. Using in vitro cell cultures of preosteoblastic MC3T3‐E1 cells, we found that TNF‐α inhibited osteoblastic differentiation accompanied by an increase in ELP2 expression and STAT3 activation. Forced ELP2 expression inhibited osteogenic differentiation of MC3T3‐E1 cells, with a decrease in the expression of osteoblast marker genes, alkaline phosphatase activity, and matrix mineralization capacity. In contrast, ELP2 silencing ameliorated osteogenic differentiation in MC3T3‐E1 cells, even after TNF‐α stimulation. The TNF‐α‐induced inhibitory effect on osteoblastic differentiation was therefore mediated by ELP2, which was associated with Janus kinase 2 (JAK2)/STAT3 activation. These results suggest that ELP2 is upregulated at the differentiation of MC3T3‐E1 cells into osteoblasts and inhibits osteogenic differentiation in response to TNF‐α through STAT3 activation.
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spelling pubmed-66183142019-07-22 ELP2 negatively regulates osteoblastic differentiation impaired by tumor necrosis factor α in MC3T3–E1 cells through STAT3 activation Xu, Chang‐Peng Sun, Hong‐Tao Yang, Ya‐Jun Cui, Zhuang Wang, Jian Yu, Bin Wang, Fa‐Zheng Yang, Qing‐Po Qi, Yong J Cell Physiol Original Research Articles Tumor necrosis factor‐α (TNF‐α) is a pluripotent signaling molecule. The biological effect of TNF‐α includes slowing down osteogenic differentiation, which can lead to bone dysplasia in long‐term inflammatory microenvironments. Signal transducer and activator of transcription 3 (STAT3)‐interacting protein 1 (StIP1, also known as elongator complex protein 2, ELP2) play a role in inhibiting TNF‐α‐induced osteoblast differentiation. In the present study, we investigated whether and how ELP2 activation mediates the effects of TNF‐α on osteoblastic differentiation. Using in vitro cell cultures of preosteoblastic MC3T3‐E1 cells, we found that TNF‐α inhibited osteoblastic differentiation accompanied by an increase in ELP2 expression and STAT3 activation. Forced ELP2 expression inhibited osteogenic differentiation of MC3T3‐E1 cells, with a decrease in the expression of osteoblast marker genes, alkaline phosphatase activity, and matrix mineralization capacity. In contrast, ELP2 silencing ameliorated osteogenic differentiation in MC3T3‐E1 cells, even after TNF‐α stimulation. The TNF‐α‐induced inhibitory effect on osteoblastic differentiation was therefore mediated by ELP2, which was associated with Janus kinase 2 (JAK2)/STAT3 activation. These results suggest that ELP2 is upregulated at the differentiation of MC3T3‐E1 cells into osteoblasts and inhibits osteogenic differentiation in response to TNF‐α through STAT3 activation. John Wiley and Sons Inc. 2019-03-07 2019-10 /pmc/articles/PMC6618314/ /pubmed/30847950 http://dx.doi.org/10.1002/jcp.28440 Text en © 2019 The Authors. Journal of Cellular Physiology Published by Wiley Periodicals, Inc. This is an open access article under the terms of the http://creativecommons.org/licenses/by-nc/4.0/ License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited and is not used for commercial purposes.
spellingShingle Original Research Articles
Xu, Chang‐Peng
Sun, Hong‐Tao
Yang, Ya‐Jun
Cui, Zhuang
Wang, Jian
Yu, Bin
Wang, Fa‐Zheng
Yang, Qing‐Po
Qi, Yong
ELP2 negatively regulates osteoblastic differentiation impaired by tumor necrosis factor α in MC3T3–E1 cells through STAT3 activation
title ELP2 negatively regulates osteoblastic differentiation impaired by tumor necrosis factor α in MC3T3–E1 cells through STAT3 activation
title_full ELP2 negatively regulates osteoblastic differentiation impaired by tumor necrosis factor α in MC3T3–E1 cells through STAT3 activation
title_fullStr ELP2 negatively regulates osteoblastic differentiation impaired by tumor necrosis factor α in MC3T3–E1 cells through STAT3 activation
title_full_unstemmed ELP2 negatively regulates osteoblastic differentiation impaired by tumor necrosis factor α in MC3T3–E1 cells through STAT3 activation
title_short ELP2 negatively regulates osteoblastic differentiation impaired by tumor necrosis factor α in MC3T3–E1 cells through STAT3 activation
title_sort elp2 negatively regulates osteoblastic differentiation impaired by tumor necrosis factor α in mc3t3–e1 cells through stat3 activation
topic Original Research Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6618314/
https://www.ncbi.nlm.nih.gov/pubmed/30847950
http://dx.doi.org/10.1002/jcp.28440
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