CRIM1 is necessary for coronary vascular endothelial cell development and homeostasis

Swati Iyer; Yash Chhabra; Tracey J. Harvey; Richard Wang; Han Sheng Chiu; A. G. Smith; Walter G. Thomas; David J. Pennisi; Michael Piper

doi:10.1007/s10735-016-9702-3

CRIM1 is necessary for coronary vascular endothelial cell development and homeostasis

Swati Iyer, Yash Chhabra, Tracey J. Harvey, Richard Wang, Han Sheng Chiu, A. G. Smith, Walter G. Thomas, David J. Pennisi, Michael Piper

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

6 Scopus citations

Abstract

Endothelial cells form a critical component of the coronary vasculature, yet the factors regulating their development remain poorly defined. Here we reveal a novel role for the transmembrane protein CRIM1 in mediating cardiac endothelial cell development. In the absence of Crim1 in vivo, the coronary vasculature is malformed, the number of endothelial cells reduced, and the canonical BMP pathway dysregulated. Moreover, we reveal that CRIM1 can bind IGFs, and regulate IGF signalling within endothelial cells. Finally, loss of CRIM1 from human cardiac endothelial cells results in misregulation of endothelial genes, predicted by pathway analysis to be involved in an increased inflammatory response and cytolysis, reminiscent of endothelial cell dysfunction in cardiovascular disease pathogenesis. Collectively, these findings implicate CRIM1 in endothelial cell development and homeostasis in the coronary vasculature.

Original language	English (US)
Pages (from-to)	53-61
Number of pages	9
Journal	Journal of Molecular Histology
Volume	48
Issue number	1
DOIs	https://doi.org/10.1007/s10735-016-9702-3
State	Published - Feb 1 2017
Externally published	Yes

Keywords

Crim 1
Endothelial cells
Heart

ASJC Scopus subject areas

Histology
Physiology
Cell Biology

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10.1007/s10735-016-9702-3

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title = "CRIM1 is necessary for coronary vascular endothelial cell development and homeostasis",

abstract = "Endothelial cells form a critical component of the coronary vasculature, yet the factors regulating their development remain poorly defined. Here we reveal a novel role for the transmembrane protein CRIM1 in mediating cardiac endothelial cell development. In the absence of Crim1 in vivo, the coronary vasculature is malformed, the number of endothelial cells reduced, and the canonical BMP pathway dysregulated. Moreover, we reveal that CRIM1 can bind IGFs, and regulate IGF signalling within endothelial cells. Finally, loss of CRIM1 from human cardiac endothelial cells results in misregulation of endothelial genes, predicted by pathway analysis to be involved in an increased inflammatory response and cytolysis, reminiscent of endothelial cell dysfunction in cardiovascular disease pathogenesis. Collectively, these findings implicate CRIM1 in endothelial cell development and homeostasis in the coronary vasculature.",

keywords = "Crim 1, Endothelial cells, Heart",

author = "Swati Iyer and Yash Chhabra and Harvey, {Tracey J.} and Richard Wang and Chiu, {Han Sheng} and Smith, {A. G.} and Thomas, {Walter G.} and Pennisi, {David J.} and Michael Piper",

note = "Funding Information: We are grateful to Prof. Melissa Little and Prof. Nadia Rosenthal for providing us with the CRIM1 and IGF-1 Ea/Eb expression constructs, respectively. Tie2-Cre mice were a kind gift from Prof. Richard Harvey at the Victor Chang Cardiac Research Institute. This work was funded by grants from the National Health and Medical Research Council to MP (1057751) and DJP (631658), and an ARC Discovery Project to MP (DP160100368). MP holds an Australian Research Council Future Fellowship (FT120100170). SI was supported by a UQ Research Scholarship. Performed experiments: SI, YC, TJH. Analysed data: SI, MP, DJP. Wrote paper: SI, MP. Edited paper: SI, WGT, AGS, MP, DJP. Publisher Copyright: {\textcopyright} 2016, Springer Science+Business Media Dordrecht.",

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doi = "10.1007/s10735-016-9702-3",

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AU - Iyer, Swati

AU - Chhabra, Yash

AU - Harvey, Tracey J.

AU - Wang, Richard

AU - Chiu, Han Sheng

AU - Smith, A. G.

AU - Thomas, Walter G.

AU - Pennisi, David J.

AU - Piper, Michael

N1 - Funding Information: We are grateful to Prof. Melissa Little and Prof. Nadia Rosenthal for providing us with the CRIM1 and IGF-1 Ea/Eb expression constructs, respectively. Tie2-Cre mice were a kind gift from Prof. Richard Harvey at the Victor Chang Cardiac Research Institute. This work was funded by grants from the National Health and Medical Research Council to MP (1057751) and DJP (631658), and an ARC Discovery Project to MP (DP160100368). MP holds an Australian Research Council Future Fellowship (FT120100170). SI was supported by a UQ Research Scholarship. Performed experiments: SI, YC, TJH. Analysed data: SI, MP, DJP. Wrote paper: SI, MP. Edited paper: SI, WGT, AGS, MP, DJP. Publisher Copyright: © 2016, Springer Science+Business Media Dordrecht.

PY - 2017/2/1

Y1 - 2017/2/1

N2 - Endothelial cells form a critical component of the coronary vasculature, yet the factors regulating their development remain poorly defined. Here we reveal a novel role for the transmembrane protein CRIM1 in mediating cardiac endothelial cell development. In the absence of Crim1 in vivo, the coronary vasculature is malformed, the number of endothelial cells reduced, and the canonical BMP pathway dysregulated. Moreover, we reveal that CRIM1 can bind IGFs, and regulate IGF signalling within endothelial cells. Finally, loss of CRIM1 from human cardiac endothelial cells results in misregulation of endothelial genes, predicted by pathway analysis to be involved in an increased inflammatory response and cytolysis, reminiscent of endothelial cell dysfunction in cardiovascular disease pathogenesis. Collectively, these findings implicate CRIM1 in endothelial cell development and homeostasis in the coronary vasculature.

AB - Endothelial cells form a critical component of the coronary vasculature, yet the factors regulating their development remain poorly defined. Here we reveal a novel role for the transmembrane protein CRIM1 in mediating cardiac endothelial cell development. In the absence of Crim1 in vivo, the coronary vasculature is malformed, the number of endothelial cells reduced, and the canonical BMP pathway dysregulated. Moreover, we reveal that CRIM1 can bind IGFs, and regulate IGF signalling within endothelial cells. Finally, loss of CRIM1 from human cardiac endothelial cells results in misregulation of endothelial genes, predicted by pathway analysis to be involved in an increased inflammatory response and cytolysis, reminiscent of endothelial cell dysfunction in cardiovascular disease pathogenesis. Collectively, these findings implicate CRIM1 in endothelial cell development and homeostasis in the coronary vasculature.

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KW - Heart

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CRIM1 is necessary for coronary vascular endothelial cell development and homeostasis

Abstract

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