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A revised terminology for the pharyngeal arches and the arch arteries.咽弓和动脉弓的修订术语。
J Anat. 2023 Oct;243(4):564-569. doi: 10.1111/joa.13890. Epub 2023 May 29.
2
SMAD4 loss-of-function mutation predisposes to congenital heart disease.SMAD4 功能丧失性突变易导致先天性心脏病。
Eur J Med Genet. 2023 Jan;66(1):104677. doi: 10.1016/j.ejmg.2022.104677. Epub 2022 Dec 7.
3
Morphogenesis of the Mammalian Aortic Arch Arteries.哺乳动物主动脉弓动脉的形态发生
Front Cell Dev Biol. 2022 May 10;10:892900. doi: 10.3389/fcell.2022.892900. eCollection 2022.
4
Vertebrate Sensory Ganglia: Common and Divergent Features of the Transcriptional Programs Generating Their Functional Specialization.脊椎动物感觉神经节:产生其功能特化的转录程序的共同特征和不同特征。
Front Cell Dev Biol. 2020 Oct 26;8:587699. doi: 10.3389/fcell.2020.587699. eCollection 2020.
5
Neurogenesis From Neural Crest Cells: Molecular Mechanisms in the Formation of Cranial Nerves and Ganglia.神经嵴细胞的神经发生:颅神经和神经节形成中的分子机制
Front Cell Dev Biol. 2020 Aug 7;8:635. doi: 10.3389/fcell.2020.00635. eCollection 2020.
6
Incidence and mortality trend of congenital heart disease at the global, regional, and national level, 1990-2017.1990 - 2017年全球、区域和国家层面先天性心脏病的发病率和死亡率趋势
Medicine (Baltimore). 2020 Jun 5;99(23):e20593. doi: 10.1097/MD.0000000000020593.
7
Cardiopharyngeal mesoderm origins of musculoskeletal and connective tissues in the mammalian pharynx.心脏咽中胚层起源于哺乳动物咽的骨骼肌和结缔组织。
Development. 2020 Feb 3;147(3):dev185256. doi: 10.1242/dev.185256.
8
Somatic Mutations in Head and Neck Carcinoma Are Associated With Tumor Progression.头颈部癌的体细胞突变与肿瘤进展相关。
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9
Genetic Basis for Congenital Heart Disease: Revisited: A Scientific Statement From the American Heart Association.先天性心脏病的遗传学基础:再探:美国心脏协会的科学声明。
Circulation. 2018 Nov 20;138(21):e653-e711. doi: 10.1161/CIR.0000000000000606.
10
Cre-driver lines used for genetic fate mapping of neural crest cells in the mouse: An overview.用于小鼠神经嵴细胞遗传命运图谱研究的Cre驱动系:综述。
Genesis. 2018 Jun;56(6-7):e23105. doi: 10.1002/dvg.23105. Epub 2018 Apr 19.

SMAD4:心脏神经嵴细胞命运和血管平滑肌发育的关键调节因子。

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

机构信息

Department of Cell Biology and Molecular Medicine, New Jersey Medical School, Rutgers Biomedical and Health Sciences, Newark, New Jersey, USA.

Multidisciplinary PhD Program in Biomedical Sciences: Cell Biology, Neuroscience and Physiology Track, New Jersey Medical School, Rutgers Biomedical and Health Sciences, Newark, New Jersey, USA.

出版信息

Dev Dyn. 2024 Jan;253(1):119-143. doi: 10.1002/dvdy.652. Epub 2023 Aug 31.

DOI:10.1002/dvdy.652
PMID:37650555
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10842824/
Abstract

BACKGROUND

During 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).

RESULTS

We 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 is indelible for regulating the survival of cardiac NCs. Although the ablation of SMAD4 at E9.5 in the NC lineage led to a near-complete absence of NCs in the pharyngeal arches, PAAs became invested with vSMCs derived from a compensatory source. Analysis of AAA development at E16.5 showed that the alternative vSMC source compensated for the lack of NC-derived vSMCs and rescued AAA morphogenesis.

CONCLUSIONS

Our studies uncovered the requisite role of SMAD4 in the contribution of the NC to the pharyngeal arch mesenchyme. We found that in the absence of SMAD4 NCs, vSMCs around the PAAs arose from a different progenitor source, rescuing AAA morphogenesis. These findings shed light on the remarkable plasticity of developmental mechanisms governing AAA development.

摘要

背景

在胚胎发生过程中,心脏神经嵴衍生细胞(NCs)迁移到咽弓中,并产生咽弓动脉(PAAs)的血管平滑肌细胞(vSMCs)。vSMCs 对于将 PAAs 重塑为最终的成人形态至关重要,从而产生主动脉弓及其动脉(AAAs)。

结果

我们使用谱系特异性诱导的小鼠品系研究了 SMAD4 在 NC 到 vSMC 分化中的作用。我们发现,SMAD4 在 NC 中的表达是不可磨灭的,可调节心脏 NCs 的存活。尽管在 NC 谱系中 E9.5 时 SMAD4 的消融导致咽弓中几乎完全没有 NCs,但 PAAs 被来自补偿来源的 vSMCs 包裹。在 E16.5 时分析 AAA 发育情况表明,替代的 vSMC 来源补偿了 NC 衍生的 vSMCs 的缺乏,并挽救了 AAA 的形态发生。

结论

我们的研究揭示了 SMAD4 在 NC 对咽弓间充质的贡献中的必要作用。我们发现,在没有 SMAD4 的情况下,PAAs 周围的 vSMCs 来自不同的祖细胞来源,挽救了 AAA 的形态发生。这些发现揭示了控制 AAA 发育的发育机制的显著可塑性。