Beta-catenin downregulation is required for adaptive cardiac remodeling.

Anthony Baurand; Laura Zelarayan; Russell Betney; Christina Gehrke; Sandra Dunger; Claudia Noack; Andreas Busjahn; Joerg Huelsken; Makoto Mark Taketo; Walter Birchmeier; Rainer Dietz; Martin W Bergmann

Beta-catenin downregulation is required for adaptive cardiac remodeling.

Standard

Beta-catenin downregulation is required for adaptive cardiac remodeling. / Baurand, Anthony; Zelarayan, Laura; Betney, Russell; Gehrke, Christina; Dunger, Sandra; Noack, Claudia; Busjahn, Andreas; Huelsken, Joerg; Taketo, Makoto Mark; Birchmeier, Walter; Dietz, Rainer; Bergmann, Martin W.

In: CIRC RES, Vol. 100, No. 9, 9, 2007, p. 1353-1362.

Research output: SCORING: Contribution to journal › SCORING: Journal article › Research › peer-review

Harvard

Baurand, A, Zelarayan, L, Betney, R, Gehrke, C, Dunger, S, Noack, C, Busjahn, A, Huelsken, J, Taketo, MM, Birchmeier, W, Dietz, R & Bergmann, MW 2007, 'Beta-catenin downregulation is required for adaptive cardiac remodeling.', CIRC RES, vol. 100, no. 9, 9, pp. 1353-1362. <http://www.ncbi.nlm.nih.gov/pubmed/17413044?dopt=Citation>

APA

Baurand, A., Zelarayan, L., Betney, R., Gehrke, C., Dunger, S., Noack, C., Busjahn, A., Huelsken, J., Taketo, M. M., Birchmeier, W., Dietz, R., & Bergmann, M. W. (2007). Beta-catenin downregulation is required for adaptive cardiac remodeling. CIRC RES, 100(9), 1353-1362. [9]. http://www.ncbi.nlm.nih.gov/pubmed/17413044?dopt=Citation

Vancouver

Baurand A, Zelarayan L, Betney R, Gehrke C, Dunger S, Noack C et al. Beta-catenin downregulation is required for adaptive cardiac remodeling. CIRC RES. 2007;100(9):1353-1362. 9.

Bibtex

@article{91c14daf2b444ceb8a65032cb00f7772,

title = "Beta-catenin downregulation is required for adaptive cardiac remodeling.",

abstract = "The armadillo-related protein beta-catenin has multiple functions in cardiac tissue homeostasis: stabilization of beta-catenin has been implicated in adult cardiac hypertrophy, and downregulation initiates heart formation in embryogenesis. The protein is also part of the cadherin/catenin complex at the cell membrane, where depletion might result in disturbed cell-cell interaction similar to N-cadherin knockout models. Here, we analyzed the in vivo role of beta-catenin in adult cardiac hypertrophy initiated by angiotensin II (Ang II). The cardiac-specific mifepristone-inducible alphaMHC-CrePR1 transgene was used to induce beta-catenin depletion (loxP-flanked exons 3 to 6, beta-cat(Deltaex3-6) mice) or stabilization (loxP-flanked exon 3, beta-cat(Deltaex3) mice). Levels of beta-catenin were altered both in membrane and nuclear extracts. Analysis of the beta-catenin target genes Axin2 and Tcf-4 confirmed increased beta-catenin-dependent transcription in beta-catenin stabilized mice. In both models, transgenic mice were viable and healthy at age 6 months. beta-Catenin appeared dispensable for cell membrane function. Ang II infusion induced cardiac hypertrophy both in wild-type mice and in mice with beta-catenin depletion. In contrast, mice with stabilized beta-catenin had decreased cross-sectional area at baseline and an abrogated hypertrophic response to Ang II infusion. Stabilizing beta-catenin led to impaired fractional shortening compared with control littermates after Ang II stimulation. This functional deterioration was associated with altered expression of the T-box proteins Tbx5 and Tbx20 at baseline and after Ang II stimulation. In addition, atrophy-related protein IGFBP5 was upregulated in beta-catenin-stabilized mice. These data suggest that beta-catenin downregulation is required for adaptive cardiac hypertrophy.",

author = "Anthony Baurand and Laura Zelarayan and Russell Betney and Christina Gehrke and Sandra Dunger and Claudia Noack and Andreas Busjahn and Joerg Huelsken and Taketo, {Makoto Mark} and Walter Birchmeier and Rainer Dietz and Bergmann, {Martin W}",

year = "2007",

language = "Deutsch",

volume = "100",

pages = "1353--1362",

journal = "CIRC RES",

issn = "0009-7330",

publisher = "Lippincott Williams and Wilkins",

number = "9",

}

RIS

TY - JOUR

T1 - Beta-catenin downregulation is required for adaptive cardiac remodeling.

AU - Baurand, Anthony

AU - Zelarayan, Laura

AU - Betney, Russell

AU - Gehrke, Christina

AU - Dunger, Sandra

AU - Noack, Claudia

AU - Busjahn, Andreas

AU - Huelsken, Joerg

AU - Taketo, Makoto Mark

AU - Birchmeier, Walter

AU - Dietz, Rainer

AU - Bergmann, Martin W

PY - 2007

Y1 - 2007

N2 - The armadillo-related protein beta-catenin has multiple functions in cardiac tissue homeostasis: stabilization of beta-catenin has been implicated in adult cardiac hypertrophy, and downregulation initiates heart formation in embryogenesis. The protein is also part of the cadherin/catenin complex at the cell membrane, where depletion might result in disturbed cell-cell interaction similar to N-cadherin knockout models. Here, we analyzed the in vivo role of beta-catenin in adult cardiac hypertrophy initiated by angiotensin II (Ang II). The cardiac-specific mifepristone-inducible alphaMHC-CrePR1 transgene was used to induce beta-catenin depletion (loxP-flanked exons 3 to 6, beta-cat(Deltaex3-6) mice) or stabilization (loxP-flanked exon 3, beta-cat(Deltaex3) mice). Levels of beta-catenin were altered both in membrane and nuclear extracts. Analysis of the beta-catenin target genes Axin2 and Tcf-4 confirmed increased beta-catenin-dependent transcription in beta-catenin stabilized mice. In both models, transgenic mice were viable and healthy at age 6 months. beta-Catenin appeared dispensable for cell membrane function. Ang II infusion induced cardiac hypertrophy both in wild-type mice and in mice with beta-catenin depletion. In contrast, mice with stabilized beta-catenin had decreased cross-sectional area at baseline and an abrogated hypertrophic response to Ang II infusion. Stabilizing beta-catenin led to impaired fractional shortening compared with control littermates after Ang II stimulation. This functional deterioration was associated with altered expression of the T-box proteins Tbx5 and Tbx20 at baseline and after Ang II stimulation. In addition, atrophy-related protein IGFBP5 was upregulated in beta-catenin-stabilized mice. These data suggest that beta-catenin downregulation is required for adaptive cardiac hypertrophy.

AB - The armadillo-related protein beta-catenin has multiple functions in cardiac tissue homeostasis: stabilization of beta-catenin has been implicated in adult cardiac hypertrophy, and downregulation initiates heart formation in embryogenesis. The protein is also part of the cadherin/catenin complex at the cell membrane, where depletion might result in disturbed cell-cell interaction similar to N-cadherin knockout models. Here, we analyzed the in vivo role of beta-catenin in adult cardiac hypertrophy initiated by angiotensin II (Ang II). The cardiac-specific mifepristone-inducible alphaMHC-CrePR1 transgene was used to induce beta-catenin depletion (loxP-flanked exons 3 to 6, beta-cat(Deltaex3-6) mice) or stabilization (loxP-flanked exon 3, beta-cat(Deltaex3) mice). Levels of beta-catenin were altered both in membrane and nuclear extracts. Analysis of the beta-catenin target genes Axin2 and Tcf-4 confirmed increased beta-catenin-dependent transcription in beta-catenin stabilized mice. In both models, transgenic mice were viable and healthy at age 6 months. beta-Catenin appeared dispensable for cell membrane function. Ang II infusion induced cardiac hypertrophy both in wild-type mice and in mice with beta-catenin depletion. In contrast, mice with stabilized beta-catenin had decreased cross-sectional area at baseline and an abrogated hypertrophic response to Ang II infusion. Stabilizing beta-catenin led to impaired fractional shortening compared with control littermates after Ang II stimulation. This functional deterioration was associated with altered expression of the T-box proteins Tbx5 and Tbx20 at baseline and after Ang II stimulation. In addition, atrophy-related protein IGFBP5 was upregulated in beta-catenin-stabilized mice. These data suggest that beta-catenin downregulation is required for adaptive cardiac hypertrophy.

M3 - SCORING: Zeitschriftenaufsatz

VL - 100

SP - 1353

EP - 1362

JO - CIRC RES

JF - CIRC RES

SN - 0009-7330

IS - 9

M1 - 9

ER -