小鼠肺发育过程中气道平滑肌分化的可塑性。

Plasticity in airway smooth muscle differentiation during mouse lung development.

机构信息

Lewis-Sigler Institute for Integrative Genomics, Princeton University, Princeton, NJ 08544, USA.

Department of Chemical and Biological Engineering, Princeton University, Princeton, NJ 08544, USA.

出版信息

Dev Cell. 2023 Mar 13;58(5):338-347.e4. doi: 10.1016/j.devcel.2023.02.002. Epub 2023 Mar 2.

DOI:10.1016/j.devcel.2023.02.002

PMID:36868232

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10149112/

Abstract

It has been proposed that smooth muscle differentiation may physically sculpt airway epithelial branches in mammalian lungs. Serum response factor (SRF) acts with its co-factor myocardin to activate the expression of contractile smooth muscle markers. In the adult, however, smooth muscle exhibits a variety of phenotypes beyond contractile, and these are independent of SRF/myocardin-induced transcription. To determine whether a similar phenotypic plasticity is exhibited during development, we deleted Srf from the mouse embryonic pulmonary mesenchyme. Srf-mutant lungs branch normally, and the mesenchyme displays mechanical properties indistinguishable from controls. scRNA-seq identified an Srf-null smooth muscle cluster, wrapping the airways of mutant lungs, which lacks contractile smooth muscle markers but retains many features of control smooth muscle. Srf-null embryonic airway smooth muscle exhibits a synthetic phenotype, compared with the contractile phenotype of mature wild-type airway smooth muscle. Our findings identify plasticity in embryonic airway smooth muscle and demonstrate that a synthetic smooth muscle layer promotes airway branching morphogenesis.

摘要

有人提出，平滑肌分化可能会在哺乳动物肺部的气道上皮分支中起到物理塑造作用。血清反应因子 (SRF) 与其协同因子心肌营养素一起作用，激活收缩性平滑肌标志物的表达。然而，在成年期，平滑肌除了收缩性之外还表现出多种表型，这些表型与 SRF/心肌营养素诱导的转录无关。为了确定在发育过程中是否表现出类似的表型可塑性，我们从小鼠胚胎肺间质中删除了 Srf。Srf 突变的肺正常分支，间质表现出与对照无区别的机械特性。scRNA-seq 鉴定出一个包裹突变肺气道的 Srf 缺失的平滑肌簇，该簇缺乏收缩性平滑肌标志物，但保留了许多对照平滑肌的特征。与成熟野生型气道平滑肌的收缩性表型相比，Srf 缺失的胚胎气道平滑肌表现出合成表型。我们的发现确定了胚胎气道平滑肌的可塑性，并表明合成的平滑肌层促进了气道分支形态发生。

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