EXCEED THE SPACE PROVIDED. Electrophysiologic, pharmacologic and neurochemical techniques will be used to examine the mechanisms underlying the neural detection of noxious stimuli in the lower urinary tract. We are particularly interested in identifying the chemical mediators that sensitize bladder nociceptors and how these chemical mediators alter ion channels in afferent neurons induced by chronic pathological conditions that result in bladder irritation and hyperactivity. Several hypotheses will be tested: (1) Several subtypes of nociceptors are present in the bladder wall and these subtypes exhibit distinct electrophysiologic properties and distinct receptive/signaling mechanisms, (2) Acute sensitization of bladder nociceptors involves a change in several membrane ion channels including: tetrodotoxin-resistant Na+ channels, vanilloid receptors (VR1) which are sensitive to capsaicin, ATP-sensitive purinergic receptors, and fast activation K+ channels, (3) Chronic pathological conditions of the lower urinary tract alter the expression of ion channels or neuretransmitter mechanisms in afferent neurons. This effect may be mediated by neurotrophic factors released within the bladder, (4) Bidirectional chemical communication between the urothelium and adjacent nerves plays a role in sensory mechanisms as well as in epithelial cell function in the urinary tract. The long-term objectives of the research program are to understand the mechanisms by which irritating or tissue-injuring stimuli are detected and processed by the nervous system and in turn modulate urinary tract function. The contribution of the urothelium to sensory processing will receive particular attention. The ultimate goal is to identify new molecular targets for drug therapy of bladder pain. PERFORMANCE SITE ========================================Section End===========================================
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