Tobias Bohnenpoll scite author profile

The mammalian urogenital system derives from multipotent progenitor cells of different germinal tissues. The contribution of individual sub-populations to specific components of the mature system, and the spatiotemporal restriction of the respective lineages have remained poorly characterized. Here, we use comparative expression analysis to delineate sub-regions within the developing urogenital system that express the T-box transcription factor gene Tbx18. We show that Tbx18 is transiently expressed in the epithelial lining and the subjacent mesenchyme of the urogenital ridge. At the onset of metanephric development Tbx18 expression occurs in a band of mesenchyme in between the metanephros and the Wolffian duct but is subsequently restricted to the mesenchyme surrounding the distal ureter stalk. Genetic lineage tracing reveals that former Tbx18(+) cells of the urogenital ridge and the metanephric field contribute substantially to the adrenal glands and gonads, to the kidney stroma, the ureteric and the bladder mesenchyme. Loss of Tbx18 does not affect differentiation of the adrenal gland, the gonad, the bladder and the kidney. However, ureter differentiation is severely disturbed as the mesenchymal lineage adopts a stromal rather than a ureteric smooth muscle fate. DiI labeling and tissue recombination experiments show that the restriction of Tbx18 expression to the prospective ureteric mesenchyme does not reflect an active condensation process but is due to a specific loss of Tbx18 expression in the mesenchyme out of range of signals from the ureteric epithelium. These cells either contribute to the renal stroma or undergo apoptosis aiding in severing the ureter from its surrounding tissues. We show that Tbx18-deficient cells do not respond to epithelial signals suggesting that Tbx18 is required to prepattern the ureteric mesenchyme. Our study provides new insights into the molecular diversity of urogenital progenitor cells and helps to understand the specification of the ureteric mesenchymal sub-lineage.

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Diversification of Cell Lineages in Ureter Development

Bohnenpoll

Feraric

Nattkemper

et al. 2016

JASN

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The mammalian ureter consists of a mesenchymal wall composed of smooth muscle cells and surrounding fibrocytes of the tunica adventitia and the lamina propria and an inner epithelial lining composed of layers of basal, intermediate, and superficial cells. How these cell types arise from multipotent progenitors is poorly understood. Here, we performed marker analysis, cell proliferation assays, and genetic lineage tracing to define the lineage relations and restrictions of the mesenchymal and epithelial cell types in the developing and mature mouse ureter. At embryonic day (E) 12.5, the mesenchymal precursor pool began to subdivide into an inner and outer compartment that began to express markers of smooth muscle precursors and adventitial fibrocytes, respectively, by E13.5. Smooth muscle precursors further diversified into lamina propria cells directly adjacent to the ureteric epithelium and differentiated smooth muscle cells from E16.5 onwards. Uncommitted epithelial progenitors of the ureter differentiated into intermediate cells at E14.5. After stratification into two layers at E15.5 and three cell layers at E18.5, intermediate cells differentiated into basal cells and superficial cells. In homeostasis, proliferation of all epithelial and mesenchymal cell types remained low but intermediate cells still gave rise to basal cells, whereas basal cells divided only into basal cells. These studies provide a framework to further determine the molecular mechanisms of cell differentiation in the tissues of the developing ureter.

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A SHH-FOXF1-BMP4 signaling axis regulating growth and differentiation of epithelial and mesenchymal tissues in ureter development

et al. 2017

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The differentiated cell types of the epithelial and mesenchymal tissue compartments of the mature ureter of the mouse arise in a precise temporal and spatial sequence from uncommitted precursor cells of the distal ureteric bud epithelium and its surrounding mesenchyme. Previous genetic efforts identified a member of the Hedgehog (HH) family of secreted proteins, Sonic hedgehog (SHH) as a crucial epithelial signal for growth and differentiation of the ureteric mesenchyme. Here, we used conditional loss- and gain-of-function experiments of the unique HH signal transducer Smoothened (SMO) to further characterize the cellular functions and unravel the effector genes of HH signaling in ureter development. We showed that HH signaling is not only required for proliferation and SMC differentiation of cells of the inner mesenchymal region but also for survival of cells of the outer mesenchymal region, and for epithelial proliferation and differentiation. We identified the Forkhead transcription factor gene Foxf1 as a target of HH signaling in the ureteric mesenchyme. Expression of a repressor version of FOXF1 in this tissue completely recapitulated the mesenchymal and epithelial proliferation and differentiation defects associated with loss of HH signaling while re-expression of a wildtype version of FOXF1 in the inner mesenchymal layer restored these cellular programs when HH signaling was inhibited. We further showed that expression of Bmp4 in the ureteric mesenchyme depends on HH signaling and Foxf1, and that exogenous BMP4 rescued cell proliferation and epithelial differentiation in ureters with abrogated HH signaling or FOXF1 function. We conclude that SHH uses a FOXF1-BMP4 module to coordinate the cellular programs for ureter elongation and differentiation, and suggest that deregulation of this signaling axis occurs in human congenital anomalies of the kidney and urinary tract (CAKUT).

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