Pax9 and Gbx2 Interact in the Pharyngeal Endoderm to Control Cardiovascular Development

Catherine A.  Stothard; Silvia Mazzotta; Arjun  Vyas; Jurgen E. Schneider; Timothy J. Mohun; Deborah J. Henderson; Helen M. Phillips; Simon D. Bamforth

doi:10.3390/JCDD7020020

Pax9 and Gbx2 Interact in the Pharyngeal Endoderm to Control Cardiovascular Development

Catherine A. Stothard, Silvia Mazzotta, Arjun Vyas, Jurgen E. Schneider, Timothy J. Mohun^* (Corresponding Author), Deborah J. Henderson, Helen M. Phillips, Simon D. Bamforth

^*Corresponding author for this work

Medical Sciences

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

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Abstract

The correct formation of the aortic arch arteries depends on a coordinated and regulated gene expression profile within the tissues of the pharyngeal arches. Perturbation of the gene regulatory networks in these tissues results in congenital heart defects affecting the arch arteries and the outflow tract of the heart. Aberrant development of these structures leads to interruption of the aortic arch and double outlet right ventricle, abnormalities that are a leading cause of morbidity in 22q11 Deletion Syndrome (DS) patients. We have recently shown that Pax9 functionally interacts with the 22q11DS gene Tbx1 in the pharyngeal endoderm for 4th pharyngeal arch artery morphogenesis, with double heterozygous mice dying at birth with interrupted aortic arch. Mice lacking Pax9 die perinatally with complex cardiovascular defects and in this study we sought to validate further potential genetic interacting partners of Pax9, focussing on Gbx2 which is down-regulated in the pharyngeal endoderm of Pax9-null embryos. Here, we describe the Gbx2-null cardiovascular phenotype and demonstrate a genetic interaction between Gbx2 and Pax9 in the pharyngeal endoderm during cardiovascular development.

Original language	English
Article number	20
Number of pages	24
Journal	Journal of Cardiovascular Development and Disease
Volume	7
Issue number	2
Early online date	25 May 2020
DOIs	https://doi.org/10.3390/JCDD7020020
Publication status	Published - May 2020

Bibliographical note

This research was funded by a British Heart Foundation project grant (PG/16/39/32115; to SDB) and a British Heart Foundation Non-Clinical PhD Studentship (FS/16/8/31984; to SDB). JES would like to acknowledge infrastructure funding from the British Heart Foundation, UK (SI/14/1/30718).

Keywords

Arch arteries
Gbx2
Pax9
Pharyngeal endoderm
Tbx1

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title = "Pax9 and Gbx2 Interact in the Pharyngeal Endoderm to Control Cardiovascular Development",

abstract = "The correct formation of the aortic arch arteries depends on a coordinated and regulated gene expression profile within the tissues of the pharyngeal arches. Perturbation of the gene regulatory networks in these tissues results in congenital heart defects affecting the arch arteries and the outflow tract of the heart. Aberrant development of these structures leads to interruption of the aortic arch and double outlet right ventricle, abnormalities that are a leading cause of morbidity in 22q11 Deletion Syndrome (DS) patients. We have recently shown that Pax9 functionally interacts with the 22q11DS gene Tbx1 in the pharyngeal endoderm for 4th pharyngeal arch artery morphogenesis, with double heterozygous mice dying at birth with interrupted aortic arch. Mice lacking Pax9 die perinatally with complex cardiovascular defects and in this study we sought to validate further potential genetic interacting partners of Pax9, focussing on Gbx2 which is down-regulated in the pharyngeal endoderm of Pax9-null embryos. Here, we describe the Gbx2-null cardiovascular phenotype and demonstrate a genetic interaction between Gbx2 and Pax9 in the pharyngeal endoderm during cardiovascular development.",

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note = "This research was funded by a British Heart Foundation project grant (PG/16/39/32115; to SDB) and a British Heart Foundation Non-Clinical PhD Studentship (FS/16/8/31984; to SDB). JES would like to acknowledge infrastructure funding from the British Heart Foundation, UK (SI/14/1/30718).",

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N2 - The correct formation of the aortic arch arteries depends on a coordinated and regulated gene expression profile within the tissues of the pharyngeal arches. Perturbation of the gene regulatory networks in these tissues results in congenital heart defects affecting the arch arteries and the outflow tract of the heart. Aberrant development of these structures leads to interruption of the aortic arch and double outlet right ventricle, abnormalities that are a leading cause of morbidity in 22q11 Deletion Syndrome (DS) patients. We have recently shown that Pax9 functionally interacts with the 22q11DS gene Tbx1 in the pharyngeal endoderm for 4th pharyngeal arch artery morphogenesis, with double heterozygous mice dying at birth with interrupted aortic arch. Mice lacking Pax9 die perinatally with complex cardiovascular defects and in this study we sought to validate further potential genetic interacting partners of Pax9, focussing on Gbx2 which is down-regulated in the pharyngeal endoderm of Pax9-null embryos. Here, we describe the Gbx2-null cardiovascular phenotype and demonstrate a genetic interaction between Gbx2 and Pax9 in the pharyngeal endoderm during cardiovascular development.

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Pax9 and Gbx2 Interact in the Pharyngeal Endoderm to Control Cardiovascular Development

Abstract

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