Retinoid signaling in progenitors controls specification and regeneration of the urothelium.

The urothelium is a multilayered epithelium that serves as a barrier between the urinary tract and blood, preventing the exchange of water and toxic substances. It consists of superficial cells specialized for synthesis and transport of uroplakins that assemble into a tough apical plaque, one or more layers of intermediate cells, and keratin 5-expressing basal cells (K5-BCs), which are considered to be progenitors in the urothelium and other specialized epithelia. Fate mapping, however, reveals that intermediate cells rather than K5-BCs are progenitors in the adult regenerating urothelium, that P cells, a transient population, are progenitors in the embryo, and that retinoids are critical in P cells and intermediate cells, respectively, for their specification during development and regeneration. These observations have important implications for tissue engineering and repair and, ultimately, may lead to treatments that prevent loss of the urothelial barrier, a major cause of voiding dysfunction and bladder pain syndrome.

Organotypic culture of the urogenital tract.

Organotypic culture is an invaluable technique that allows researchers with the tool to analyze a tissue development in an isolated and well-defined environment. This technique also permits one to study the roles of different signaling systems/signaling molecules and to take advantage of the modern real-time imaging techniques, including confocal microscopy. With great success, our lab has used organotypic culture of the urogenital tract (UGT) to study growth and extension of the mesonephric (Wolffian) duct and its cloaca connection, ureter maturation, and bladder urothelium development (Batourina et al. Nat Genet 32:109, 2002; Batourina et al. Nat Genet 37:1082, 2005; Mendelsohn Organogenesis 5:306, 2009).