<scp>SMAD4</scp>: A critical regulator of cardiac neural crest cell fate and vascular smooth muscle development

Alexander, Brianna E.; Zhao, Huaning; Astrof, Sophie

doi:10.1002/dvdy.652

Developmental Dynamics

2023

DOI: 10.1002/dvdy.652

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SMAD4: A critical regulator of cardiac neural crest cell fate and vascular smooth muscle development

Brianna E. Alexander,

Huaning Zhao,

Sophie Astrof

Abstract: BackgroundDuring embryogenesis, cardiac neural crest‐derived cells (NCs) migrate into the pharyngeal arches and give rise to the vascular smooth muscle cells (vSMCs) of the pharyngeal arch arteries (PAAs). vSMCs are critical for the remodeling of the PAAs into their final adult configuration, giving rise to the aortic arch and its arteries (AAAs).ResultsWe investigated the role of SMAD4 in NC‐to‐vSMC differentiation using lineage‐specific inducible mouse strains. We found that the expression of SMAD4 in the NC… Show more

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2024

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Cited by 2 publications

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“…In the pharyngeal region of the embryo, cardiac neural crestderived cells migrate into aortic arches to form vSMCs. Here, Alexander et al, 8 comprehensively examine conditional knockouts of SMAD4 in different pharyngeal cell types and conclude that SMAD4 is essential for normal NCC contributions to vSMCs. However, in an intriguing turn, they also suggest a compensatory cellular contribution in the absence of SMAD4.…”

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From pumps to pipes: A special issue on mechanisms of cardiovascular development

Mommersteeg,

Hogan

2024

Developmental Dynamics

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mentioning

confidence: 99%

From pumps to pipes: A special issue on mechanisms of cardiovascular development

Mommersteeg,

Hogan

2024

Developmental Dynamics

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Modulation of mechanosensitive genes during embryonic aortic arch development

Siddiqui,

Golcez,

Çelik

et al. 2024

Developmental Dynamics

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BackgroundEarly embryonic aortic arches (AA) are a dynamic vascular structures that are in the process of shaping into the great arteries of cardiovascular system. Previously, a time‐lapsed mechanosensitive gene expression map was established for AA subject to altered mechanical loads in the avian embryo. To validate this map, we investigated effects on vascular microstructure and material properties following the perturbation of key genes using an in‐house microvascular gene knockdown system.ResultsAll siRNA vectors show a decrease in the expression intensity of desired genes with no significant differences between vectors. In TGFβ3 knockdowns, we found a reduction in expression intensities of TGFβ3 (≤76%) and its downstream targets such as ELN (≤99.6%), Fbn1 (≤60%), COL1 (≤52%) and COL3 (≤86%) and an increase of diameter in the left AA (23%). MMP2 knockdown also reduced expression levels in MMP2 (≤30%) and a 6‐fold increase in its downstream target COL3 with a decrease in stiffness of the AA wall and an increase in the diameter of the AA (55%). These in vivo measurements were confirmed using immunohistochemistry, western blotting and a computational growth model of the vascular extracellular matrix (ECM).ConclusionsLocalized spatial genetic modification of the aortic arch region governs the vascular phenotype and ECM composition of the embryo and can be integrated with mechanically‐induced congenital heart disease models.

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SMAD4: A critical regulator of cardiac neural crest cell fate and vascular smooth muscle development

Cited by 2 publications

References 83 publications

From pumps to pipes: A special issue on mechanisms of cardiovascular development

From pumps to pipes: A special issue on mechanisms of cardiovascular development

Modulation of mechanosensitive genes during embryonic aortic arch development

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