BACKGROUND: Loss-of-function of Pax2 results in severe defects of the male reproductive system, and Pax2 expression is detected in mouse prostate lobes and human prostatic cancers. However, the role for Pax2 in prostate development remains poorly understood. METHODS: The expression of Pax2 was examined by in situ hybridization at various developmental stages. Urogenital sinuses were dissected out at E18.5 from mouse Pax2 mutants and controls, cultured in vitro or grafted under the renal capsule of CD1 nude mice. The expression of prostate developmental regulatory factors was analyzed by semi-quantitative real-time PCR or immuohistochemistry. RESULTS: Pax2 is expressed in the epithelial cells of prostate buds. Loss-of-function of Pax2 does not affect the initiation of prostatic buds, but in vitro culture assays show that the prostates of Pax2 mutants are hypomorphic and branching is severely disrupted compared to controls. RT-PCR data from Pax2 mutant prostates demonstrate increased expression levels of dorsolateral prostate marker MSMB and ventral prostate marker SBP and dramatically reduced expression levels of anterior prostate marker TGM4. CONCLUSIONS: Pax2 is essential for mouse prostate development and regulates prostatic ductal growth, branching, and lobe-specific identity. These findings are important for understanding the molecular regulatory mechanisms in prostate development.
BACKGROUND: Loss-of-function of Pax2 results in severe defects of the male reproductive system, and Pax2 expression is detected in mouseprostate lobes and humanprostatic cancers. However, the role for Pax2 in prostate development remains poorly understood. METHODS: The expression of Pax2 was examined by in situ hybridization at various developmental stages. Urogenital sinuses were dissected out at E18.5 from mousePax2 mutants and controls, cultured in vitro or grafted under the renal capsule of CD1nude mice. The expression of prostate developmental regulatory factors was analyzed by semi-quantitative real-time PCR or immuohistochemistry. RESULTS:Pax2 is expressed in the epithelial cells of prostate buds. Loss-of-function of Pax2 does not affect the initiation of prostatic buds, but in vitro culture assays show that the prostates of Pax2 mutants are hypomorphic and branching is severely disrupted compared to controls. RT-PCR data from Pax2 mutant prostates demonstrate increased expression levels of dorsolateral prostate marker MSMB and ventral prostate marker SBP and dramatically reduced expression levels of anterior prostate marker TGM4. CONCLUSIONS:Pax2 is essential for mouse prostate development and regulates prostatic ductal growth, branching, and lobe-specific identity. These findings are important for understanding the molecular regulatory mechanisms in prostate development.
Authors: R Bhatia-Gaur; A A Donjacour; P J Sciavolino; M Kim; N Desai; P Young; C R Norton; T Gridley; R D Cardiff; G R Cunha; C Abate-Shen; M M Shen Journal: Genes Dev Date: 1999-04-15 Impact factor: 11.361
Authors: G R Dressler; J E Wilkinson; U W Rothenpieler; L T Patterson; L Williams-Simons; H Westphal Journal: Nature Date: 1993-03-04 Impact factor: 49.962
Authors: Xiangyun Liu; Y I Cheng; Q I Pan; Wenjuan Hu; L I Xu; Xiang Meng; Jianhui Wu; Chenjing Xie; Han Yan; Zuyue Sun Journal: Exp Ther Med Date: 2016-02-01 Impact factor: 2.447