A New Autosomal Myh11-CreER T2 Smooth Muscle Cell Lineage Tracing and Gene Knockout Mouse Model—Brief Report

生物 分子生物学 转基因 染色体 转基因小鼠 基因敲除 基因 遗传学
作者
Rebecca A. Deaton,Gamze B. Bulut,Vlad Serbulea,Anita Salamon,Laura S. Shankman,Anh Nguyen,Gary K. Owens
出处
期刊:Arteriosclerosis, Thrombosis, and Vascular Biology [Lippincott Williams & Wilkins]
卷期号:43 (2): 203-211 被引量:26
标识
DOI:10.1161/atvbaha.122.318160
摘要

Background: The Myh11 promoter is extensively used as a smooth muscle cell (SMC) Cre-driver and is regarded as the most restrictive and specific promoter available to study SMCs. Unfortunately, in the existing Myh11-CreER T2 mouse, the transgene was inserted on the Y chromosome precluding the study of female mice. Given the importance of including sex as a biological variable and that numerous SMC-based diseases have a sex-dependent bias, the field has been tremendously limited by the lack of a model to study both sexes. Here, we describe a new autosomal Myh11-CreER T2 mouse (referred to as Myh11-CreER T2 -RAD ), which allows for SMC-specific lineage tracing and gene knockout studies in vivo using both male and female mice. Methods: A Myh11-CreER T2 -RAD transgenic C57BL/6 mouse line was generated using bacterial artificial chromosome clone RP23-151J22 modified to contain a Cre-ER T2 after the Myh11 start codon. Myh11-CreER T2 -RAD mice were crossed with 2 different fluorescent reporter mice and tested for SMC-specific labeling by flow cytometric and immunofluorescence analyses. Results: Myh11-CreER T2 -RAD transgene insertion was determined to be on mouse chromosome 2. Myh11-CreER T2 -RAD fluorescent reporter mice showed Cre-dependent, tamoxifen-inducible labeling of SMCs equivalent to the widely used Myh11-CreER T2 mice. Labeling was equivalent in both male and female Cre + mice and was limited to vascular and visceral SMCs and pericytes in various tissues as assessed by immunofluorescence. Conclusions: We generated and validated the function of an autosomal Myh11-CreER T2 -RAD mouse that can be used to assess sex as a biological variable with respect to the normal and pathophysiological functions of SMCs.
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