β-Catenin C-terminal signals suppress p53 and are essential for artery formation

Dario F. Riascos-Bernal; Prameladevi Chinnasamy; Longyue Cao; Charlene M. Dunaway; Tomas Valenta; Konrad Basler; Nicholas E.S. Sibinga

doi:10.1038/ncomms12389

β-Catenin C-terminal signals suppress p53 and are essential for artery formation

Dario F. Riascos-Bernal, Prameladevi Chinnasamy, Longyue Cao, Charlene M. Dunaway, Tomas Valenta, Konrad Basler, Nicholas E.S. Sibinga

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

27 Scopus citations

Abstract

Increased activity of the tumour suppressor p53 is incompatible with embryogenesis, but how p53 is controlled is not fully understood. Differential requirements for p53 inhibitors Mdm2 and Mdm4 during development suggest that these control mechanisms are context-dependent. Artery formation requires investment of nascent endothelial tubes by smooth muscle cells (SMCs). Here, we find that embryos lacking SMC β-catenin suffer impaired arterial maturation and die by E12.5, with increased vascular wall p53 activity. β-Catenin-deficient SMCs show no change in p53 levels, but greater p53 acetylation and activity, plus impaired growth and survival. In vivo, SMC p53 inactivation suppresses phenotypes caused by loss of β-catenin. Mechanistically, β-catenin C-terminal interactions inhibit Creb-binding protein-dependent p53 acetylation and p53 transcriptional activity, and are required for artery formation. Thus in SMCs, the β-catenin C-terminus indirectly represses p53, and this function is essential for embryogenesis. These findings have implications for angiogenesis, tissue engineering and vascular disease.

Original language	English (US)
Article number	12389
Journal	Nature communications
Volume	7
DOIs	https://doi.org/10.1038/ncomms12389
State	Published - Aug 8 2016

ASJC Scopus subject areas

Chemistry(all)
Biochemistry, Genetics and Molecular Biology(all)
Physics and Astronomy(all)

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title = "β-Catenin C-terminal signals suppress p53 and are essential for artery formation",

abstract = "Increased activity of the tumour suppressor p53 is incompatible with embryogenesis, but how p53 is controlled is not fully understood. Differential requirements for p53 inhibitors Mdm2 and Mdm4 during development suggest that these control mechanisms are context-dependent. Artery formation requires investment of nascent endothelial tubes by smooth muscle cells (SMCs). Here, we find that embryos lacking SMC β-catenin suffer impaired arterial maturation and die by E12.5, with increased vascular wall p53 activity. β-Catenin-deficient SMCs show no change in p53 levels, but greater p53 acetylation and activity, plus impaired growth and survival. In vivo, SMC p53 inactivation suppresses phenotypes caused by loss of β-catenin. Mechanistically, β-catenin C-terminal interactions inhibit Creb-binding protein-dependent p53 acetylation and p53 transcriptional activity, and are required for artery formation. Thus in SMCs, the β-catenin C-terminus indirectly represses p53, and this function is essential for embryogenesis. These findings have implications for angiogenesis, tissue engineering and vascular disease.",

author = "Riascos-Bernal, {Dario F.} and Prameladevi Chinnasamy and Longyue Cao and Dunaway, {Charlene M.} and Tomas Valenta and Konrad Basler and Sibinga, {Nicholas E.S.}",

note = "Funding Information: This work was supported by NIH grants HL088104 and HL104518 (N.E.S.S.) and an American Heart Association Predoctoral Fellowship (D.F.R-B.). Publisher Copyright: {\textcopyright} Author(s) 2016.",

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doi = "10.1038/ncomms12389",

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AU - Riascos-Bernal, Dario F.

AU - Chinnasamy, Prameladevi

AU - Cao, Longyue

AU - Dunaway, Charlene M.

AU - Valenta, Tomas

AU - Basler, Konrad

AU - Sibinga, Nicholas E.S.

N1 - Funding Information: This work was supported by NIH grants HL088104 and HL104518 (N.E.S.S.) and an American Heart Association Predoctoral Fellowship (D.F.R-B.). Publisher Copyright: © Author(s) 2016.

PY - 2016/8/8

Y1 - 2016/8/8

N2 - Increased activity of the tumour suppressor p53 is incompatible with embryogenesis, but how p53 is controlled is not fully understood. Differential requirements for p53 inhibitors Mdm2 and Mdm4 during development suggest that these control mechanisms are context-dependent. Artery formation requires investment of nascent endothelial tubes by smooth muscle cells (SMCs). Here, we find that embryos lacking SMC β-catenin suffer impaired arterial maturation and die by E12.5, with increased vascular wall p53 activity. β-Catenin-deficient SMCs show no change in p53 levels, but greater p53 acetylation and activity, plus impaired growth and survival. In vivo, SMC p53 inactivation suppresses phenotypes caused by loss of β-catenin. Mechanistically, β-catenin C-terminal interactions inhibit Creb-binding protein-dependent p53 acetylation and p53 transcriptional activity, and are required for artery formation. Thus in SMCs, the β-catenin C-terminus indirectly represses p53, and this function is essential for embryogenesis. These findings have implications for angiogenesis, tissue engineering and vascular disease.

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β-Catenin C-terminal signals suppress p53 and are essential for artery formation

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