A role of stochastic phenotype switching in generating mosaic endothelial cell heterogeneity

Lei Yuan; Gary C. Chan; David Beeler; Lauren Janes; Katherine C. Spokes; Harita Dharaneeswaran; Anahita Mojiri; William J. Adams; Tracey Sciuto; Guillermo Garcia-Cardena; Grietje Molema; Peter M. Kang; Nadia Jahroudi; Philip A. Marsden; Ann Dvorak; Erzsebet Ravasz Regan; William C. Aird

doi:10.1038/ncomms10160

A role of stochastic phenotype switching in generating mosaic endothelial cell heterogeneity

Lei Yuan, Gary C. Chan, David Beeler, Lauren Janes, Katherine C. Spokes, Harita Dharaneeswaran, Anahita Mojiri, William J. Adams, Tracey Sciuto, Guillermo Garcia-Cardena, Grietje Molema, Peter M. Kang, Nadia Jahroudi, Philip A. Marsden, Ann Dvorak, Erzsebet Ravasz Regan, William C. Aird

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Previous studies have shown that biological noise may drive dynamic phenotypic mosaicism in isogenic unicellular organisms. However, there is no evidence for a similar mechanism operating in metazoans. Here we show that the endothelial-restricted gene, von Willebrand factor (VWF), is expressed in a mosaic pattern in the capillaries of many vascular beds and in the aorta. In capillaries, the mosaicism is dynamically regulated, with VWF switching between ON and OFF states during the lifetime of the animal. Clonal analysis of cultured endothelial cells reveals that dynamic mosaic heterogeneity is controlled by a low-barrier, noise-sensitive bistable switch that involves random transitions in the DNA methylation status of the VWF promoter. Finally, the hearts of VWF-null mice demonstrate an abnormal endothelial phenotype as well as cardiac dysfunction. Together, these findings suggest a novel stochastic phenotype switching strategy for adaptive homoeostasis in the adult vasculature.

Originele taal-2	English
Artikelnummer	10160
Aantal pagina's	16
Tijdschrift	Nature Communications
Volume	7
DOI's	https://doi.org/10.1038/ncomms10160
Status	Published - jan.-2016

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10.1038/ncomms10160Licentie: CC BY

A role of stochastic phenotype switching in generating mosaic endothelial cell heterogeneityFinal publisher's version, 3,54 MBLicentie: CC BY

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Yuan, L., Chan, G. C., Beeler, D., Janes, L., Spokes, K. C., Dharaneeswaran, H., Mojiri, A., Adams, W. J., Sciuto, T., Garcia-Cardena, G., Molema, G., Kang, P. M., Jahroudi, N., Marsden, P. A., Dvorak, A., Regan, E. R., & Aird, W. C. (2016). A role of stochastic phenotype switching in generating mosaic endothelial cell heterogeneity. Nature Communications, 7, Artikel 10160. https://doi.org/10.1038/ncomms10160

@article{c5b375a6362f4ce9bd30e697e0abc288,

title = "A role of stochastic phenotype switching in generating mosaic endothelial cell heterogeneity",

abstract = "Previous studies have shown that biological noise may drive dynamic phenotypic mosaicism in isogenic unicellular organisms. However, there is no evidence for a similar mechanism operating in metazoans. Here we show that the endothelial-restricted gene, von Willebrand factor (VWF), is expressed in a mosaic pattern in the capillaries of many vascular beds and in the aorta. In capillaries, the mosaicism is dynamically regulated, with VWF switching between ON and OFF states during the lifetime of the animal. Clonal analysis of cultured endothelial cells reveals that dynamic mosaic heterogeneity is controlled by a low-barrier, noise-sensitive bistable switch that involves random transitions in the DNA methylation status of the VWF promoter. Finally, the hearts of VWF-null mice demonstrate an abnormal endothelial phenotype as well as cardiac dysfunction. Together, these findings suggest a novel stochastic phenotype switching strategy for adaptive homoeostasis in the adult vasculature.",

keywords = "VON-WILLEBRAND-FACTOR, EUKARYOTIC GENE-EXPRESSION, HAIRPIN-BISULFITE PCR, EMBRYONIC STEM-CELLS, DNA METHYLATION, IN-VIVO, NOISE, ANGIOGENESIS, INHERITANCE, DECISION",

author = "Lei Yuan and Chan, {Gary C.} and David Beeler and Lauren Janes and Spokes, {Katherine C.} and Harita Dharaneeswaran and Anahita Mojiri and Adams, {William J.} and Tracey Sciuto and Guillermo Garcia-Cardena and Grietje Molema and Kang, {Peter M.} and Nadia Jahroudi and Marsden, {Philip A.} and Ann Dvorak and Regan, {Erzsebet Ravasz} and Aird, {William C.}",

year = "2016",

month = jan,

doi = "10.1038/ncomms10160",

language = "English",

volume = "7",

journal = "Nature Communications",

issn = "2041-1723",

publisher = "Nature Publishing Group",

}

Yuan, L, Chan, GC, Beeler, D, Janes, L, Spokes, KC, Dharaneeswaran, H, Mojiri, A, Adams, WJ, Sciuto, T, Garcia-Cardena, G, Molema, G, Kang, PM, Jahroudi, N, Marsden, PA, Dvorak, A, Regan, ER & Aird, WC 2016, 'A role of stochastic phenotype switching in generating mosaic endothelial cell heterogeneity', Nature Communications, vol. 7, 10160. https://doi.org/10.1038/ncomms10160

TY - JOUR

T1 - A role of stochastic phenotype switching in generating mosaic endothelial cell heterogeneity

AU - Yuan, Lei

AU - Chan, Gary C.

AU - Beeler, David

AU - Janes, Lauren

AU - Spokes, Katherine C.

AU - Dharaneeswaran, Harita

AU - Mojiri, Anahita

AU - Adams, William J.

AU - Sciuto, Tracey

AU - Garcia-Cardena, Guillermo

AU - Molema, Grietje

AU - Kang, Peter M.

AU - Jahroudi, Nadia

AU - Marsden, Philip A.

AU - Dvorak, Ann

AU - Regan, Erzsebet Ravasz

AU - Aird, William C.

PY - 2016/1

Y1 - 2016/1

N2 - Previous studies have shown that biological noise may drive dynamic phenotypic mosaicism in isogenic unicellular organisms. However, there is no evidence for a similar mechanism operating in metazoans. Here we show that the endothelial-restricted gene, von Willebrand factor (VWF), is expressed in a mosaic pattern in the capillaries of many vascular beds and in the aorta. In capillaries, the mosaicism is dynamically regulated, with VWF switching between ON and OFF states during the lifetime of the animal. Clonal analysis of cultured endothelial cells reveals that dynamic mosaic heterogeneity is controlled by a low-barrier, noise-sensitive bistable switch that involves random transitions in the DNA methylation status of the VWF promoter. Finally, the hearts of VWF-null mice demonstrate an abnormal endothelial phenotype as well as cardiac dysfunction. Together, these findings suggest a novel stochastic phenotype switching strategy for adaptive homoeostasis in the adult vasculature.

AB - Previous studies have shown that biological noise may drive dynamic phenotypic mosaicism in isogenic unicellular organisms. However, there is no evidence for a similar mechanism operating in metazoans. Here we show that the endothelial-restricted gene, von Willebrand factor (VWF), is expressed in a mosaic pattern in the capillaries of many vascular beds and in the aorta. In capillaries, the mosaicism is dynamically regulated, with VWF switching between ON and OFF states during the lifetime of the animal. Clonal analysis of cultured endothelial cells reveals that dynamic mosaic heterogeneity is controlled by a low-barrier, noise-sensitive bistable switch that involves random transitions in the DNA methylation status of the VWF promoter. Finally, the hearts of VWF-null mice demonstrate an abnormal endothelial phenotype as well as cardiac dysfunction. Together, these findings suggest a novel stochastic phenotype switching strategy for adaptive homoeostasis in the adult vasculature.

KW - VON-WILLEBRAND-FACTOR

KW - EUKARYOTIC GENE-EXPRESSION

KW - HAIRPIN-BISULFITE PCR

KW - EMBRYONIC STEM-CELLS

KW - DNA METHYLATION

KW - IN-VIVO

KW - NOISE

KW - ANGIOGENESIS

KW - INHERITANCE

KW - DECISION

U2 - 10.1038/ncomms10160

DO - 10.1038/ncomms10160

M3 - Article

C2 - 26744078

SN - 2041-1723

VL - 7

JO - Nature Communications

JF - Nature Communications

M1 - 10160

ER -

A role of stochastic phenotype switching in generating mosaic endothelial cell heterogeneity

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