Andrea Brenner-Anantharam scite author profile

*Urinary tract morphogenesis requires the sub-division of the ureteric bud (UB) into the intra-renal collecting system and ureter, two tissues with unique structural and functional properties. In this report we investigate the cellular and molecular mechanisms that mediate their differentiation. Fate mapping experiments in the developing chick indicate that the UB is surrounded by two distinct mesenchymal populations: nephrogenic mesenchyme derived from the intermediate mesoderm and tailbud-derived mesoderm, which is selectively associated with the domain of the UB that differentiates into the ureter. Functional experiments utilizing murine metanephric kidney explants show that BMP4, a paracrine factor secreted by tailbud-derived mesenchyme, is required for ureter morphogenesis. Conversely, ectopic BMP4 signaling is sufficient to induce ureter morphogenesis in domains of the UB normally fated to differentiate into the intra-renal collecting system. Collectively, these results indicate that the border between the kidney and ureter forms where mesenchymal tissues originating in two different areas of the early embryo meet. These data raise the possibility that the susceptibility of this junction to congenital defects in humans, such as ureteral-pelvic obstructions, may be related to the complex morphogenetic movements that are required to integrate cells from these different lineages into a single functional structure.

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Antagonism of BMP4 Signaling Disrupts Smooth Muscle Investment of the Ureter and Ureteropelvic Junction

Wang

Brenner-Anantharam

Vaughan

et al. 2009

Journal of Urology

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Purpose Congenital ureteropelvic junction obstruction has been associated with aberrant ureteral smooth muscle organization. Recent evidence has shown that BMP4 may be involved in ureteral morphogenesis. We determined whether the disruption of BMP4 signaling results in abnormal smooth muscle investment of the ureter and ureteropelvic junction. Materials and Methods We used a Cre mediated Bmp4 knockout system to conditionally excise the Bmp4 gene in developing mouse embryos. Kidney rudiments were isolated from embryos at varying gestational ages from WT and conditional knockout mice. Metanephric kidney explants were cultured in the presence or absence of the BMP antagonist Noggin. Agarose beads pre-incubated with Gremlin, another BMP antagonist, were used for localized disruption of BMP signaling. Frozen sections and whole metanephric explants were then analyzed by immunofluorescence. Results Bmp4 gene excision resulted in a dose dependent loss of ureteral smooth muscle. Antagonism of BMP signaling inhibited ureteral smooth muscle investment in a dose dependent manner and was paralleled by a dose dependent decrease in the immediate downstream targets of BMP signaling, phosphorylated Smad1, 5 and 8. Localized antagonism of BMP resulted in the focal disruption of ureteral smooth muscle investment. Conclusions We report that decreased BMP signaling, whether by the loss of BMP4 in vivo or direct antagonism in vitro, results in a gradual reduction of the normal, well organized coat of smooth muscle surrounding the ureter. Our results also suggest that this occurs via a direct Smad dependent pathway. This raises the possibility that abnormalities in BMP4 signaling may have a role in the development of congenital ureteropelvic junction obstruction.

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Antagonism of Bmp4 Signaling Disrupts Smooth Muscle Investment of the Ureter and Ureteropelvic Junction

Wang¹,

Brenner-Anantharam²,

Vaughan³

et al. 2008

Journal of Urology

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Purpose-Congenital ureteropelvic junction obstruction has been associated with aberrant ureteral smooth muscle organization. Recent evidence has shown that BMP4 may be involved in ureteral morphogenesis. We determined whether the disruption of BMP4 signaling results in abnormal smooth muscle investment of the ureter and ureteropelvic junction. Materials and Methods-We used a Cre mediated Bmp4 knockout system to conditionally excise the Bmp4 gene in developing mouse embryos. Kidney rudiments were isolated from embryos at varying gestational ages from WT and conditional knockout mice. Metanephric kidney explants were cultured in the presence or absence of the BMP antagonist Noggin. Agarose beads pre-incubated with Gremlin, another BMP antagonist, were used for localized disruption of BMP signaling. Frozen sections and whole metanephric explants were then analyzed by immunofluorescence. Results-Bmp4 gene excision resulted in a dose dependent loss of ureteral smooth muscle. Antagonism of BMP signaling inhibited ureteral smooth muscle investment in a dose dependent manner and was paralleled by a dose dependent decrease in the immediate downstream targets of BMP signaling, phosphorylated Smad1, 5 and 8. Localized antagonism of BMP resulted in the focal disruption of ureteral smooth muscle investment. Conclusions-We report that decreased BMP signaling, whether by the loss of BMP4 in vivo or direct antagonism in vitro, results in a gradual reduction of the normal, well organized coat of smooth muscle surrounding the ureter. Our results also suggest that this occurs via a direct Smad dependent pathway. This raises the possibility that abnormalities in BMP4 signaling may have a role in the development of congenital ureteropelvic junction obstruction. Keywords ureter; ureteral obstruction; abnormalities; bone morphogenetic protein 4; gene expression Congenital UPJ obstruction is the most common cause of urinary tract dilatation in children, occurring in 1/1,000 to 2,000 newborns. 1 Recent studies indicate that congenital obstructions may in part be due to aberrant ureteral smooth muscle organization, resulting in impaired peristalsis. 2-4 Additionally, surgical specimens of obstructed human UPJ segments

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