Browsing by Subject "Desmin"
Now showing 1 - 2 of 2
- Results Per Page
- Sort Options
Item Open Access Defects of prostate development and reproductive system in the estrogen receptor-alpha null male mice.(Endocrinology, 2009-01) Chen, Ming; Hsu, Iawen; Wolfe, Andrew; Radovick, Sally; Huang, KuoHsiang; Yu, Shengqiang; Chang, Chawnshang; Messing, Edward M; Yeh, ShuyuanThe estrogen receptor-alpha knockout (ERalphaKO, ERalpha-/-) mice were generated via the Cre-loxP system by mating floxed ERalpha mice with beta-actin (ACTB)-Cre mice. The impact of ERalpha gene deletion in the male reproductive system was investigated. The ACTB-Cre/ERalpha(-/-) male mice are infertile and have lost 90% of epididymal sperm when compared with wild-type mice. Serum testosterone levels in ACTB-Cre/ERalpha(-/-) male mice are 2-fold elevated. The ACTB-Cre/ERalpha(-/-) testes consist of atrophic and degenerating seminiferous tubules with less cellularity in the disorganized seminiferous epithelia. Furthermore, the ventral and dorsal-lateral prostates of ACTB-Cre/ERalpha(-/-) mice display reduced branching morphogenesis. Loss of ERalpha could also be responsible for the decreased fibroblast proliferation and changes in the stromal content. In addition, we found bone morphogenetic protein, a mesenchymal inhibitor of prostatic branching morphogenesis, is significantly up-regulated in the ACTB-Cre/ERalpha(-/-) prostates. Collectively, these results suggest that ERalpha is required for male fertility, acts through a paracrine mechanism to regulate prostatic branching morphogenesis, and is involved in the proliferation and differentiation of prostatic stromal compartment.Item Open Access Desmin interacts with STIM1 and coordinates Ca2+ signaling in skeletal muscle.(JCI insight, 2021-09) Zhang, Hengtao; Bryson, Victoria Graham; Wang, Chaojian; Li, TianYu; Kerr, Jaclyn P; Wilson, Rebecca; Muoio, Deborah M; Bloch, Robert J; Ward, Christopher; Rosenberg, Paul BStromal interaction molecule 1 (STIM1), the sarcoplasmic reticulum (SR) transmembrane protein, activates store-operated Ca2+ entry (SOCE) in skeletal muscle and, thereby, coordinates Ca2+ homeostasis, Ca2+-dependent gene expression, and contractility. STIM1 occupies space in the junctional SR membrane of the triads and the longitudinal SR at the Z-line. How STIM1 is organized and is retained in these specific subdomains of the SR is unclear. Here, we identified desmin, the major type III intermediate filament protein in muscle, as a binding partner for STIM1 based on a yeast 2-hybrid screen. Validation of the desmin-STIM1 interaction by immunoprecipitation and immunolocalization confirmed that the CC1-SOAR domains of STIM1 interact with desmin to enhance STIM1 oligomerization yet limit SOCE. Based on our studies of desmin-KO mice, we developed a model wherein desmin connected STIM1 at the Z-line in order to regulate the efficiency of Ca2+ refilling of the SR. Taken together, these studies showed that desmin-STIM1 assembles a cytoskeletal-SR connection that is important for Ca2+ signaling in skeletal muscle.