Cystitis: From Urothelial Cell Biology to Clinical Applications

Uropathogenic Escherichia coli (UPEC) are capable of forming complex intracellular bacterial communities (IBC) within the superficial umbrella cells of the bladders of C3H and BALB/c mice. By using time-lapse fluorescence videomicroscopy to observe infected mouse bladder explants, we discovered that IBCs formed by uropathogenic E. coli progressed through four distinct developmental stages that differed with respect to growth rate, bacterial length, colony organization, motility, and its eventual dispersal. In the first phase, bacteria in the IBC were nonmotile, rod shaped, and grew rapidly in loosely organized colonies free in the cytoplasm of the bladder superficial umbrella cells. In the second phase, the loose collection of bacteria in the IBC matured into a slower growing, highly organized biofilm-like community consisting of coccoid bacteria that ultimately filled most of the cytoplasm. In the third phase, bacteria in the biofilm-like state in the IBC switched to a motile rod-shaped phenotype allowing detachment from the community and eventual fluxing out of the host cell. During the fourth phase, the bacteria filamented. Filamentation appeared to be in response to a Toll-like receptor 4-mediated innate defense mechanism. Bacteria that fluxed out of the superficial umbrella cells were able to reenter the IBC developmental cascade but with slower kinetics and ultimately a quiescent reservoir was established. Intracellular growth and filamentation provided an advantage to the bacteria in evading infiltrating polymorphonuclear leukocytes. This work has developed a technique to observe live infected organs and revealed a complex differentiation pathway that facilitates bacterial persistence in the urinary tract.

Guidelines for the diagnosis, prevention, and management of persons with catheter-associated urinary tract infection (CA-UTI), both symptomatic and asymptomatic, were prepared by an Expert Panel of the Infectious Diseases Society of America. The evidence-based guidelines encompass diagnostic criteria, strategies to reduce the risk of CA-UTIs, strategies that have not been found to reduce the incidence of urinary infections, and management strategies for patients with catheter-associated asymptomatic bacteriuria or symptomatic urinary tract infection. These guidelines are intended for use by physicians in all medical specialties who perform direct patient care, with an emphasis on the care of patients in hospitals and long-term care facilities.

Urothelium covers the inner surfaces of the renal pelvis, ureter, bladder, and prostatic urethra. Although morphologically similar, the urothelia in these anatomic locations differ in their embryonic origin and lineages of cellular differentiation, as reflected in their different uroplakin content, expandability during micturition, and susceptibility to chemical carcinogens. Previously thought to be an inert tissue forming a passive barrier between the urine and blood, urothelia have recently been shown to have a secretory activity that actively modifies urine composition. Urothelial cells express a number of ion channels, receptors, and ligands, enabling them to receive and send signals and communicate with adjoining cells and their broader environment. The urothelial surface bears specific receptors that not only allow uropathogenic E. coli to attach to and invade the bladder mucosa, but also provide a route by which the bacteria ascend through the ureters to the kidney to cause pyelonephritis. Genetic ablation of one or more uroplakin genes in mice causes severe retrograde vesicoureteral reflux, hydronephrosis, and renal failure, conditions that mirror certain human congenital diseases. Clearly, abnormalities of the lower urinary tract can impact the upper tract, and vice versa, through the urothelial connection. In this review, we highlight recent advances in the field of urothelial biology by focusing on the uroplakins, a group of urothelium-specific and differentiation-dependent integral membrane proteins. We discuss these proteins' biochemistry, structure, assembly, intracellular trafficking, and their emerging roles in urothelial biology, function, and pathological processes. We also call attention to important areas where greater investigative efforts are warranted.