The p53-Bak apoptotic signaling axis plays an essential role in regulating differentiation of the ocular lens

M. Deng; P. Chen; F. Liu; S. Fu; H. Tang; Y. Fu; Z. Xiong; S. Hui; W. Ji; X. Zhang; L. Zhang; L. Gong; X. Hu; W. Hu; S. Sun; J. Liu; L. Xiao; W. B. Liu; Y. M. Xiao; S. J. Liu; Y. Liu; D. W.C. Li

doi:10.2174/156652412802480899

The p53-Bak apoptotic signaling axis plays an essential role in regulating differentiation of the ocular lens

M. Deng, P. Chen, F. Liu, S. Fu, H. Tang, Y. Fu, Z. Xiong, S. Hui, W. Ji, X. Zhang, L. Zhang, L. Gong, X. Hu, W. Hu, S. Sun, J. Liu, L. Xiao, W. B. Liu, Y. M. Xiao, S. J. LiuY. Liu, D. W.C. Li

Research output: Contribution to journal › Article › peer-review

25 Scopus citations

Abstract

The tumor suppressor p53 is a master regulator of apoptosis and also plays a key role in cell cycle checking. In our previous studies, we demonstrated that p53 directly regulates Bak in mouse JB6 cells (Qin et al. 2008. Cancer Research. 68(11):4150) and that p53-Bak signaling axis plays an important role in mediating EGCG-induced apoptosis. Here, we demonstrate that the same p53-Bak apoptotic signaling axis executes an essential role in regulating lens cell differentiation. First, during mouse lens development, p53 is expressed and differentially phosphorylated at different residues. Associated with p53 expression, Bak is also significantly expressed during mouse lens development. Second, human p53 directly regulates Bak promoter and Bak expression in p53 knockout mice (p53-/-) was significantly downregulated. Third, during in vitro bFGF-induced lens cell differentiation, knockdown of p53 or Bak leads to significant inhibition of lens cell differentiation. Fourth, besides the major distribution of Bak in cytoplasm, it is also localized in the nucleus in normal lens or bFGF-induced differentiating lens cells. Finally, p53 and Bak are co-localized in both cytoplasm and nucleus, and their interaction regulates the stability of p53. Together, these results demonstrate for the first time that the p53-Bak apoptotic signaling axis plays an essential role in regulating lens differentiation.

Original language	English (US)
Pages (from-to)	901-916
Number of pages	16
Journal	Current molecular medicine
Volume	12
Issue number	8
DOIs	https://doi.org/10.2174/156652412802480899
State	Published - 2012

Keywords

Apoptosis
Bak
Cataract
Cell differentiation
Gene expression
Lens
Signaling pathway
Transcription regulation
Tumor suppressor
p53

ASJC Scopus subject areas

Biochemistry
Molecular Medicine
Molecular Biology

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10.2174/156652412802480899

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Deng, M., Chen, P., Liu, F., Fu, S., Tang, H., Fu, Y., Xiong, Z., Hui, S., Ji, W., Zhang, X., Zhang, L., Gong, L., Hu, X., Hu, W., Sun, S., Liu, J., Xiao, L., Liu, W. B., Xiao, Y. M., ... Li, D. W. C. (2012). The p53-Bak apoptotic signaling axis plays an essential role in regulating differentiation of the ocular lens. Current molecular medicine, 12(8), 901-916. https://doi.org/10.2174/156652412802480899

Deng, M, Chen, P, Liu, F, Fu, S, Tang, H, Fu, Y, Xiong, Z, Hui, S, Ji, W, Zhang, X, Zhang, L, Gong, L, Hu, X, Hu, W, Sun, S, Liu, J, Xiao, L, Liu, WB, Xiao, YM, Liu, SJ, Liu, Y & Li, DWC 2012, 'The p53-Bak apoptotic signaling axis plays an essential role in regulating differentiation of the ocular lens', Current molecular medicine, vol. 12, no. 8, pp. 901-916. https://doi.org/10.2174/156652412802480899

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title = "The p53-Bak apoptotic signaling axis plays an essential role in regulating differentiation of the ocular lens",

abstract = "The tumor suppressor p53 is a master regulator of apoptosis and also plays a key role in cell cycle checking. In our previous studies, we demonstrated that p53 directly regulates Bak in mouse JB6 cells (Qin et al. 2008. Cancer Research. 68(11):4150) and that p53-Bak signaling axis plays an important role in mediating EGCG-induced apoptosis. Here, we demonstrate that the same p53-Bak apoptotic signaling axis executes an essential role in regulating lens cell differentiation. First, during mouse lens development, p53 is expressed and differentially phosphorylated at different residues. Associated with p53 expression, Bak is also significantly expressed during mouse lens development. Second, human p53 directly regulates Bak promoter and Bak expression in p53 knockout mice (p53-/-) was significantly downregulated. Third, during in vitro bFGF-induced lens cell differentiation, knockdown of p53 or Bak leads to significant inhibition of lens cell differentiation. Fourth, besides the major distribution of Bak in cytoplasm, it is also localized in the nucleus in normal lens or bFGF-induced differentiating lens cells. Finally, p53 and Bak are co-localized in both cytoplasm and nucleus, and their interaction regulates the stability of p53. Together, these results demonstrate for the first time that the p53-Bak apoptotic signaling axis plays an essential role in regulating lens differentiation.",

keywords = "Apoptosis, Bak, Cataract, Cell differentiation, Gene expression, Lens, Signaling pathway, Transcription regulation, Tumor suppressor, p53",

author = "M. Deng and P. Chen and F. Liu and S. Fu and H. Tang and Y. Fu and Z. Xiong and S. Hui and W. Ji and X. Zhang and L. Zhang and L. Gong and X. Hu and W. Hu and S. Sun and J. Liu and L. Xiao and Liu, {W. B.} and Xiao, {Y. M.} and Liu, {S. J.} and Y. Liu and Li, {D. W.C.}",

year = "2012",

doi = "10.2174/156652412802480899",

language = "English (US)",

volume = "12",

pages = "901--916",

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T1 - The p53-Bak apoptotic signaling axis plays an essential role in regulating differentiation of the ocular lens

AU - Deng, M.

AU - Chen, P.

AU - Liu, F.

AU - Fu, S.

AU - Tang, H.

AU - Fu, Y.

AU - Xiong, Z.

AU - Hui, S.

AU - Ji, W.

AU - Zhang, X.

AU - Zhang, L.

AU - Gong, L.

AU - Hu, X.

AU - Hu, W.

AU - Sun, S.

AU - Liu, J.

AU - Xiao, L.

AU - Liu, W. B.

AU - Xiao, Y. M.

AU - Liu, S. J.

AU - Liu, Y.

AU - Li, D. W.C.

PY - 2012

Y1 - 2012

N2 - The tumor suppressor p53 is a master regulator of apoptosis and also plays a key role in cell cycle checking. In our previous studies, we demonstrated that p53 directly regulates Bak in mouse JB6 cells (Qin et al. 2008. Cancer Research. 68(11):4150) and that p53-Bak signaling axis plays an important role in mediating EGCG-induced apoptosis. Here, we demonstrate that the same p53-Bak apoptotic signaling axis executes an essential role in regulating lens cell differentiation. First, during mouse lens development, p53 is expressed and differentially phosphorylated at different residues. Associated with p53 expression, Bak is also significantly expressed during mouse lens development. Second, human p53 directly regulates Bak promoter and Bak expression in p53 knockout mice (p53-/-) was significantly downregulated. Third, during in vitro bFGF-induced lens cell differentiation, knockdown of p53 or Bak leads to significant inhibition of lens cell differentiation. Fourth, besides the major distribution of Bak in cytoplasm, it is also localized in the nucleus in normal lens or bFGF-induced differentiating lens cells. Finally, p53 and Bak are co-localized in both cytoplasm and nucleus, and their interaction regulates the stability of p53. Together, these results demonstrate for the first time that the p53-Bak apoptotic signaling axis plays an essential role in regulating lens differentiation.

AB - The tumor suppressor p53 is a master regulator of apoptosis and also plays a key role in cell cycle checking. In our previous studies, we demonstrated that p53 directly regulates Bak in mouse JB6 cells (Qin et al. 2008. Cancer Research. 68(11):4150) and that p53-Bak signaling axis plays an important role in mediating EGCG-induced apoptosis. Here, we demonstrate that the same p53-Bak apoptotic signaling axis executes an essential role in regulating lens cell differentiation. First, during mouse lens development, p53 is expressed and differentially phosphorylated at different residues. Associated with p53 expression, Bak is also significantly expressed during mouse lens development. Second, human p53 directly regulates Bak promoter and Bak expression in p53 knockout mice (p53-/-) was significantly downregulated. Third, during in vitro bFGF-induced lens cell differentiation, knockdown of p53 or Bak leads to significant inhibition of lens cell differentiation. Fourth, besides the major distribution of Bak in cytoplasm, it is also localized in the nucleus in normal lens or bFGF-induced differentiating lens cells. Finally, p53 and Bak are co-localized in both cytoplasm and nucleus, and their interaction regulates the stability of p53. Together, these results demonstrate for the first time that the p53-Bak apoptotic signaling axis plays an essential role in regulating lens differentiation.

KW - Apoptosis

KW - Bak

KW - Cataract

KW - Cell differentiation

KW - Gene expression

KW - Lens

KW - Signaling pathway

KW - Transcription regulation

KW - Tumor suppressor

KW - p53

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M3 - Article

C2 - 22671997

AN - SCOPUS:84866526095

SN - 1566-5240

VL - 12

SP - 901

EP - 916

JO - Current molecular medicine

JF - Current molecular medicine

IS - 8

ER -

The p53-Bak apoptotic signaling axis plays an essential role in regulating differentiation of the ocular lens

Abstract

Keywords

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