A novel source of arterial valve cells linked to bicuspid aortic valve without raphe in mice

Lorriane Eley; Ahlam M.S. Alqahtani; Donal Macgrogan; Rachel V. Richardson; Lindsay Murphy; Alejandro Salguero-Jimenez; Marcos Sintes Rodriguez San Pedro; Shindi Tiurma; Lauren McCutcheon; Adam Gilmore; José Luis de La Pompa; Bill Chaudhry; Deborah J. Henderson

doi:10.7554/eLife.34110

A novel source of arterial valve cells linked to bicuspid aortic valve without raphe in mice

Lorriane Eley
, Ahlam M.S. Alqahtani
, Donal Macgrogan
, Rachel V. Richardson
, Lindsay Murphy
, Alejandro Salguero-Jimenez
, Marcos Sintes Rodriguez San Pedro
, Shindi Tiurma
, Lauren McCutcheon
, Adam Gilmore
, José Luis de La Pompa
, Bill Chaudhry
, Deborah J. Henderson^*

^*Corresponding author for this work

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

56 Citations (Scopus)

Abstract

Abnormalities of the arterial valve leaflets, predominantly bicuspid aortic valve, are the commonest congenital malformations. Although many studies have investigated the development of the arterial valves, it has been assumed that, as with the atrioventricular valves, endocardial to mesenchymal transition (EndMT) is the predominant mechanism. We show that arterial is distinctly different from atrioventricular valve formation. Whilst the four septal valve leaflets are dominated by NCC and EndMT-derived cells, the intercalated leaflets differentiate directly from Tnnt2-Cre+/Isl1+ progenitors in the outflow wall, via a Notch-Jag dependent mechanism. Further, when this novel group of progenitors are disrupted, development of the intercalated leaflets is disrupted, resulting in leaflet dysplasia and bicuspid valves without raphe, most commonly affecting the aortic valve. This study thus overturns the dogma that heart valves are formed principally by EndMT, identifies a new source of valve interstitial cells, and provides a novel mechanism for causation of bicuspid aortic valves without raphe.

Original language	English
Article number	e34110
Journal	eLife
Volume	7
DOIs	https://doi.org/10.7554/eLife.34110
Publication status	Published - 29 Jun 2018
Externally published	Yes

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Eley, L., Alqahtani, A. M. S., Macgrogan, D., Richardson, R. V., Murphy, L., Salguero-Jimenez, A., Sintes Rodriguez San Pedro, M., Tiurma, S., McCutcheon, L., Gilmore, A., de La Pompa, J. L., Chaudhry, B., & Henderson, D. J. (2018). A novel source of arterial valve cells linked to bicuspid aortic valve without raphe in mice. eLife, 7, Article e34110. https://doi.org/10.7554/eLife.34110

@article{ff4f3186d32442068b0cef884d62fc68,

title = "A novel source of arterial valve cells linked to bicuspid aortic valve without raphe in mice",

abstract = "Abnormalities of the arterial valve leaflets, predominantly bicuspid aortic valve, are the commonest congenital malformations. Although many studies have investigated the development of the arterial valves, it has been assumed that, as with the atrioventricular valves, endocardial to mesenchymal transition (EndMT) is the predominant mechanism. We show that arterial is distinctly different from atrioventricular valve formation. Whilst the four septal valve leaflets are dominated by NCC and EndMT-derived cells, the intercalated leaflets differentiate directly from Tnnt2-Cre+/Isl1+ progenitors in the outflow wall, via a Notch-Jag dependent mechanism. Further, when this novel group of progenitors are disrupted, development of the intercalated leaflets is disrupted, resulting in leaflet dysplasia and bicuspid valves without raphe, most commonly affecting the aortic valve. This study thus overturns the dogma that heart valves are formed principally by EndMT, identifies a new source of valve interstitial cells, and provides a novel mechanism for causation of bicuspid aortic valves without raphe.",

author = "Lorriane Eley and Alqahtani, \{Ahlam M.S.\} and Donal Macgrogan and Richardson, \{Rachel V.\} and Lindsay Murphy and Alejandro Salguero-Jimenez and \{Sintes Rodriguez San Pedro\}, Marcos and Shindi Tiurma and Lauren McCutcheon and Adam Gilmore and \{de La Pompa\}, \{Jos{\'e} Luis\} and Bill Chaudhry and Henderson, \{Deborah J.\}",

note = "Publisher Copyright: {\textcopyright} Eley et al.",

year = "2018",

month = jun,

day = "29",

doi = "10.7554/eLife.34110",

language = "English",

volume = "7",

journal = "eLife",

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T1 - A novel source of arterial valve cells linked to bicuspid aortic valve without raphe in mice

AU - Eley, Lorriane

AU - Alqahtani, Ahlam M.S.

AU - Macgrogan, Donal

AU - Richardson, Rachel V.

AU - Murphy, Lindsay

AU - Salguero-Jimenez, Alejandro

AU - Sintes Rodriguez San Pedro, Marcos

AU - Tiurma, Shindi

AU - McCutcheon, Lauren

AU - Gilmore, Adam

AU - de La Pompa, José Luis

AU - Chaudhry, Bill

AU - Henderson, Deborah J.

PY - 2018/6/29

Y1 - 2018/6/29

N2 - Abnormalities of the arterial valve leaflets, predominantly bicuspid aortic valve, are the commonest congenital malformations. Although many studies have investigated the development of the arterial valves, it has been assumed that, as with the atrioventricular valves, endocardial to mesenchymal transition (EndMT) is the predominant mechanism. We show that arterial is distinctly different from atrioventricular valve formation. Whilst the four septal valve leaflets are dominated by NCC and EndMT-derived cells, the intercalated leaflets differentiate directly from Tnnt2-Cre+/Isl1+ progenitors in the outflow wall, via a Notch-Jag dependent mechanism. Further, when this novel group of progenitors are disrupted, development of the intercalated leaflets is disrupted, resulting in leaflet dysplasia and bicuspid valves without raphe, most commonly affecting the aortic valve. This study thus overturns the dogma that heart valves are formed principally by EndMT, identifies a new source of valve interstitial cells, and provides a novel mechanism for causation of bicuspid aortic valves without raphe.

AB - Abnormalities of the arterial valve leaflets, predominantly bicuspid aortic valve, are the commonest congenital malformations. Although many studies have investigated the development of the arterial valves, it has been assumed that, as with the atrioventricular valves, endocardial to mesenchymal transition (EndMT) is the predominant mechanism. We show that arterial is distinctly different from atrioventricular valve formation. Whilst the four septal valve leaflets are dominated by NCC and EndMT-derived cells, the intercalated leaflets differentiate directly from Tnnt2-Cre+/Isl1+ progenitors in the outflow wall, via a Notch-Jag dependent mechanism. Further, when this novel group of progenitors are disrupted, development of the intercalated leaflets is disrupted, resulting in leaflet dysplasia and bicuspid valves without raphe, most commonly affecting the aortic valve. This study thus overturns the dogma that heart valves are formed principally by EndMT, identifies a new source of valve interstitial cells, and provides a novel mechanism for causation of bicuspid aortic valves without raphe.

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AN - SCOPUS:85051957934

SN - 2050-084X

VL - 7

JO - eLife

JF - eLife

M1 - e34110

ER -

A novel source of arterial valve cells linked to bicuspid aortic valve without raphe in mice

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