Molecular analysis of smooth muscle development in the mouse
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TLDR
The results of this study indicate that distinct cellular phenotypes are involved in smooth muscle myogenesis and suggest that organ‐specific mechanisms might exist for the initiation of smooth muscle development in vivo.Abstract:
Little is currently known regarding the ontogeny of smooth muscle tissues during normal mammalian development. The alpha-smooth muscle and gamma-smooth muscle isoactins have been shown to be excellent molecular markers of smooth muscle cell phenotype. This study characterizes both the temporal and spatial patterns of alpha-smooth muscle and gamma-smooth muscle isoactin expression in the developing mouse. In situ analysis was performed on serial sections of whole mouse embryos on embryonic day 9, 11, 13, 15, and 17 using alpha-smooth muscle and gamma-smooth muscle isoactin-specific riboprobes. Distinct temporal and spatial patterns of alpha-smooth muscle and gamma-smooth muscle isoactin gene expression were observed in the developing gastrointestinal tract, urogenital tract, respiratory tract, and vascular system. Independent expression of the alpha-smooth muscle isoactin was observed during the early stages of skeletal, cardiac, and smooth muscle myogenesis as well as in a novel subset of distinct organs including the postnatal component of the hindgut, allantois, and primitive placenta. The results of this study indicate that distinct cellular phenotypes are involved in smooth muscle myogenesis and suggest that organ-specific mechanisms might exist for the initiation of smooth muscle development in vivo. In addition, the pattern of independent alpha-smooth muscle isoactin expression observed in this study provides novel information regarding the early stages of hindgut and placental development, and suggests that a common functional phenotype may be associated with the early stages of skeletal, cardiac, and smooth muscle myogenesis.read more
Citations
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Embryonic mesenchymal cells share the potential for smooth muscle differentiation: myogenesis is controlled by the cell's shape.
TL;DR: It is suggested that the mesenchymal cell shape plays a main role in visceral myogenesis, as indicated by the expression of smooth muscle-specific proteins and the development of membrane potentials and voltage-dependent Ca2+ currents, characteristic of excitable cells.
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The Role of the Visceral Mesoderm in the Development of the Gastrointestinal Tract
TL;DR: The important role of the visceral mesoderm in the ontogeny of the GI tract is revealed, reviewing evidence from both mammalian and nonmammalian models.
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Mice Lacking Skeletal Muscle Actin Show Reduced Muscle Strength and Growth Deficits and Die during the Neonatal Period
TL;DR: It is found that increases in cardiac and vascular smooth-muscle actin can partially compensate for the lack of skeletal actin in null mice, but this is not sufficient to support adequate skeletal muscle growth and/or function.
Journal ArticleDOI
Actin isoform expression patterns during mammalian development and in pathology: Insights from mouse models
TL;DR: Based on transgenic mouse models, expression patterns of the six conventional actin isoforms in mammals during development and adult life are discussed and a good knowledge of their expression and functions will contribute to fully understand severe phenotypes or diseases caused by mutations in actinisoforms.
Journal ArticleDOI
The Smooth Muscle γ-Actin Gene Promoter Is a Molecular Target for the Mouse bagpipe Homologue, mNkx3-1, and Serum Response Factor *
TL;DR: expression of mNkx3-1 in heterologous CV-1 fibroblasts was unable to elicit SMGA promoter activity but required the coexpression of serum response factor (SRF) to activate robust SMGA transcription, a novel complex element containing a juxtaposed Nkx-binding site (NKE) and an SRF-binding element (SRE) in the proximal promoter region.
References
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Journal ArticleDOI
The smooth muscle cell in culture
TL;DR: The current state of knowledge of both vascular and visceral smooth muscle in cell and tissue culture and the variety of preparations used for different experimental purposes are described in this article, where the authors refer to organ culture of smooth muscle tissues only periodically.
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Requirement of MADS domain transcription factor D-MEF2 for muscle formation in Drosophila
Brenda Lilly,Bin Zhao,Gogineni Ranganayakulu,Bruce M. Paterson,Robert A. Schulz,Eric N. Olson +5 more
TL;DR: Different muscle cell types share a common myogenic differentiation program controlled by MEF2, which is determined by generating a loss-of-function of the single mef2 gene in Drosophila (D-mef2).
Journal ArticleDOI
Sequential activation of alpha-actin genes during avian cardiogenesis: vascular smooth muscle alpha-actin gene transcripts mark the onset of cardiomyocyte differentiation.
D L Ruzicka,Robert J. Schwartz +1 more
TL;DR: The specific expression of the vascular smooth muscle alpha- actin gene marks the onset of differentiation of cardiac cells and represents the first demonstration of coexpression of both smooth muscle and striated alpha-actin genes within myogenic cells.
Journal ArticleDOI
Expression of smooth muscle-specific proteins in myoepithelium and stromal myofibroblasts of normal and malignant human breast tissue.
Daniel Lazard,Xavier Sastre,Maria G. Frid,Marina A. Glukhova,Jean Paul Thiery,Victor E. Koteliansky +5 more
TL;DR: Myoepithelial cells and stromal myofibroblasts are epithelial and mesenchymal cells, respectively, which coordinately express a set of smooth muscle markers while maintaining their specific original features.
Expression of smooth muscle-specific proteins in myoepithelium and stromal myofibroblasts of normal and malignant human breast tissue (smooth muscle differentiation/breast carcinoma)
TL;DR: The expression of several differentiation markers in normal human mammary gland myoepithelium and in certain stromal fibroblasts associated with breast carcinomas was studied by immunofluorescence microscopy of frozen sections as discussed by the authors.
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