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Role of Nitric Oxide in Feline Interstitial Cystitis.

$416,357R56FY2009DKNIH

University Of Pittsburgh At Pittsburgh, Pittsburgh PA

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Abstract

Painful bladder syndrome/interstitial cystitis (PBS/IC) is a chronic painful condition of the urinary bladder in which there are no proven etiologies and no effective treatments that are able to ameliorate the symptoms, which include urinary frequency, urgency, nocturia and pain. There is a comparable disease in domestic cats termed feline interstitial cystitis (FIC), which demonstrates nearly all of the characteristics and symptoms of human PBS/IC. Cats with this naturally occurring disease, as opposed to acute injury/inflammation in rodent models, may permit more relevant studies of the pathophysiology of PBS/IC in humans. We have identified a number of abnormalities in the urothelium of FIC bladders including alterations in barrier function, proliferation and growth, and a heightened sensitivity/response to both chemical and physical stimuli. These may be a result of changes in intracellular Ca2+ release/sequestration and/or intracellular signaling pathways. There are also abnormalities in FIC bladder afferents including altered morphological/electrical properties, nerve firing and distribution of nerve fibers. Moreover, we also have evidence that FIC spinal cord glial cells are [unreadable]activated[unreadable] in regions of pelvic afferent input suggesting that these cells play a role in influencing sensory mechanisms. Recent findings support an important role for activation of spinal cord glial cells in both initiation and amplification of persistent pain, as it is known that these cells can enhance and prolong the response of afferents to peripheral stimulation. Our goals in this renewal application are to further understand the signaling pathways underlying the changes observed in urothelial function, and signaling mechanisms responsible for various cell-cell interactions and how these mechanisms may be altered in FIC. These goals will be accomplished using a multidisciplinary approach including imaging techniques, molecular biology and measurement of transmitter release. Aim #1 will evaluate intracellular mechanisms regulating urothelial vesicle recycling and transmitter release in PBS/FIC. We hypothesize that the release of mediators from the urothelium in response to mechanical or chemical stimuli contributes to the sensory symptoms in FIC and PBS/IC patients. This aim will utilize imaging with membrane-impermeant dyes to explore mechanisms responsible for chemical and mechanical evoked release of mediators from urothelial cells. Aim #2 will evaluate mechanisms underlying changes in umbrella cell morphology, signaling and communication in PBS/FIC. We will use intact bladder sheets and polarized urothelial cultures to measure changes in apical properties and cell signaling between urothelial layers. Aim #3 will evaluate morphological/functional properties of spinal cord glial cells in PBS/FIC. We will characterize the chemistry/morphology and function of cultured spinal cord astrocytes as well as glialneuronal interactions in normal and FIC. Understanding the mechanisms involved in these types of changes may provide important insights for development of novel targets for the clinical management of PBS/IC.

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