PURPOSE: The aim of this study was to determine caudal-type homeobox gene-1 (Cdx1) expressions during anorectal development in normal and anorectal malformation (ARMs) embryos and investigate the possible role of Cdx1 in the pathogenesis of ARM. MATERIALS AND METHODS: Anorectal malformation was induced by ethylenethiourea on the 10th gestational day (GD10) in rat embryos. Cesarean deliveries were performed to harvest embryos from GD13 to GD21. The temporal and spatial expression of Cdx1 was evaluated in normal rat embryos (n = 334) and ARM embryos (n = 328) from GD13 to GD20 using immunohistochemistry staining, reverse transcriptase polymerase chain reaction (RT-PCR), and Western blot analysis. RESULTS: Immunostaining revealed that in normal embryos, on GD13.5, Cdx1 expression was mainly located on the epithelium of the dorsal urorectal septum (URS), cloacal membrane, and the hindgut. On GD15, increased positive tissue staining was noted on the fused tissue of URS, especially in the very thin anal membrane. In the ARM embryos, however, the epithelium of the cloaca, URS, and anorectum was negative or faint for Cdx1. In Western blot and RT-PCR, in the normal group, Cdx1 protein and Cdx1 messenger RNA expression showed time-dependent changes in the developing hindgut, on GD14, GD14.5, and GD15. The expression level reached a peak when the anus was forming. Once the anus was open, Cdx1 expression gradually decreased. In addition, the expression level of Cdx1 in the ARM group from GD13 to GD16 was significant lower than that of the normal group (P < .05). CONCLUSIONS: In ARM embryos, an imbalance of spatiotemporal expression of Cdx1 was noted during anorectal morphogenesis from GD13 to GD16. This suggests that downregulation of Cdx1 at the time of cloacal separation into rectum and urethra might be related to the development of ARM.
PURPOSE: The aim of this study was to determine caudal-type homeobox gene-1 (Cdx1) expressions during anorectal development in normal and anorectal malformation (ARMs) embryos and investigate the possible role of Cdx1 in the pathogenesis of ARM. MATERIALS AND METHODS: Anorectal malformation was induced by ethylenethiourea on the 10th gestational day (GD10) in rat embryos. Cesarean deliveries were performed to harvest embryos from GD13 to GD21. The temporal and spatial expression of Cdx1 was evaluated in normal rat embryos (n = 334) and ARM embryos (n = 328) from GD13 to GD20 using immunohistochemistry staining, reverse transcriptase polymerase chain reaction (RT-PCR), and Western blot analysis. RESULTS: Immunostaining revealed that in normal embryos, on GD13.5, Cdx1 expression was mainly located on the epithelium of the dorsal urorectal septum (URS), cloacal membrane, and the hindgut. On GD15, increased positive tissue staining was noted on the fused tissue of URS, especially in the very thin anal membrane. In the ARM embryos, however, the epithelium of the cloaca, URS, and anorectum was negative or faint for Cdx1. In Western blot and RT-PCR, in the normal group, Cdx1 protein and Cdx1 messenger RNA expression showed time-dependent changes in the developing hindgut, on GD14, GD14.5, and GD15. The expression level reached a peak when the anus was forming. Once the anus was open, Cdx1 expression gradually decreased. In addition, the expression level of Cdx1 in the ARM group from GD13 to GD16 was significant lower than that of the normal group (P < .05). CONCLUSIONS: In ARM embryos, an imbalance of spatiotemporal expression of Cdx1 was noted during anorectal morphogenesis from GD13 to GD16. This suggests that downregulation of Cdx1 at the time of cloacal separation into rectum and urethra might be related to the development of ARM.
Authors: Tao Zhang; Hai Lan Zhang; Da Jia Wang; Xiao Bing Tang; Hui Min Jia; Yu Zuo Bai; Zheng Wei Yuan; Wei Lin Wang Journal: Int J Colorectal Dis Date: 2010-08-05 Impact factor: 2.571
Authors: Tao Zhang; Xiao Bing Tang; Li Li Wang; Yu Zuo Bai; Guang Rong Qiu; Zheng Wei Yuan; Wei Lin Wang Journal: Int J Med Sci Date: 2013-01-09 Impact factor: 3.738