机构地区:[1]Departments of Urology and Pathology, University of Rochester Medical Center, Rochester, New York 14642, USA [2]Sex Hormone Research Center, China Medical University Hospital, Taichung 40402, Taiwan, China
出 处:《Asian Journal of Andrology》2012年第4期546-555,共10页亚洲男性学杂志(英文版)
摘 要:Early studies suggested that estrogen receptor alpha (ERa) is involved in estrogen-mediated imprinting effects in prostate development. We recently reported a more complete ERa knockout (KO) mouse model via mating β-actin Cre transgenic mice with floxed ERa mice. These ACTB-ERaKO male mice showed defects in prostatic branching morphogenesis, which demonstrates that ERa is necessary to maintain proliferative events in the prostate. However, within which prostate cell type ERa exerts those important functions remains to be elucidated. To address this, we have bred floxed ERa mice with either fibroblast-specific protein (FSP)-Cre or probasin-Cre transgenic mice to generate a mouse model that has deleted ERa gene in either stromal fibroblast (FSP-ERaKO) or epithelial (pes-ERaKO) prostate cells. We found that circulating testosterone and fertility were not altered in FSP.ERaKO and pes-ERaKO male mice. Prostates of FSP-ERaKO mice have less branching morphogenesis compared to that of wild-type littermates. Further analyses indicated that loss of stromal ERa leads to increased stromal apoptosis, reduced expression of insulin-likegrowth factor-1 (IGF-1) and FGFIO, and increased expression of BMP4. Collectively, we have established the first in vivo prostate stromal and epithelial selective ERaKO mouse models and the results from these mice indicated that stromal fibroblast ERa plays important roles in prostatic branching morphogenesis via a paracrine fashion. Selective deletion of the ERa gene in mouse prostate epithelial cells by probasin-Cre does not affect the regular prostate development and homeostasis.Early studies suggested that estrogen receptor alpha (ERa) is involved in estrogen-mediated imprinting effects in prostate development. We recently reported a more complete ERa knockout (KO) mouse model via mating β-actin Cre transgenic mice with floxed ERa mice. These ACTB-ERaKO male mice showed defects in prostatic branching morphogenesis, which demonstrates that ERa is necessary to maintain proliferative events in the prostate. However, within which prostate cell type ERa exerts those important functions remains to be elucidated. To address this, we have bred floxed ERa mice with either fibroblast-specific protein (FSP)-Cre or probasin-Cre transgenic mice to generate a mouse model that has deleted ERa gene in either stromal fibroblast (FSP-ERaKO) or epithelial (pes-ERaKO) prostate cells. We found that circulating testosterone and fertility were not altered in FSP.ERaKO and pes-ERaKO male mice. Prostates of FSP-ERaKO mice have less branching morphogenesis compared to that of wild-type littermates. Further analyses indicated that loss of stromal ERa leads to increased stromal apoptosis, reduced expression of insulin-likegrowth factor-1 (IGF-1) and FGFIO, and increased expression of BMP4. Collectively, we have established the first in vivo prostate stromal and epithelial selective ERaKO mouse models and the results from these mice indicated that stromal fibroblast ERa plays important roles in prostatic branching morphogenesis via a paracrine fashion. Selective deletion of the ERa gene in mouse prostate epithelial cells by probasin-Cre does not affect the regular prostate development and homeostasis.
关 键 词:CRE-LOXP estrogen receptor KNOCKOUT PROSTATE stromal-epithelial interaction
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