R>23. Yu, W. et al. Expression and distribution of transient receptor potential (TRP) channels in bladder epithelium. Am J Physiol Renal Physiol. 300, 49-59 (2011).
24. Mochizuki, T. et al. The TRPV4 cation channel mediates stretch-evoked Ca2+ influx and ATP release in primary urothelial cell cultures. J Biol Chem. 284, 57-64 (2009).
25. Everaerts, W. et al. Functional characterization of transient receptor potential channels in mouse urothelial cells. AJP - Renal Physiol. 298, 692-701(2010).
26. Young, J. S. et al. Inhibition of stretching-evoked ATP release from bladder mucosa by anticholinergic agents. BJU international. 28, 125-128 (2012).
27. Munoz, A. et al. Overactive and underactive bladder dysfunction is reflected by alterations in urothelial ATP and NO release. Neurochem Int. 58, 295-300 (2011).
28. Santoso, A. G. H. et al. The role of the Urothelium and ATP in mediating detrusor smooth muscle contractility. Urology, 76, 1267.e7-1267.e12 (2010).
29. Ozawa H et al. Effect of intravesical nitric oxide therapy on cyclophosphamide-induced cystitis. J Urol. 162, 2211–2216 (1999).
30. Hosseini A et al. (2004) Nitric oxide as an objective marker for evaluation of treatment response in patients with classic interstitial cystitis. J Urol 172: 2261–2265
31. Sun, Y. & Chai, T. C. Role of purinergic signaling in voiding dysfunction. Current Bladder Dysfunction Reports. 5, 219-224 (2010).
32. Wang, E. et al. ATP and purinergic receptor dependent membrane traffic in bladder umbrella cells. J Clin Invest.115,2412–2422 (2005).
33. Kanai, A.J. et al. Origin of spontaneous activity in neonatal and adult rat bladders and its enhancement by stretch and muscarinic agonists. Am J Physiol Renal Physiol. 120, 402-411 (2006).
34. Ferguson, D. R. et al. ATP is released from rabbit urinary bladder epithelial cells by hydrostatic pressure changes—a possible sensory mechanism? J Physiol. 505, 503-511(1997).
35. Chopra, B. et al. Expression and function of bradykinin B1 and B2 receptors in normal and inflamed rat urinary bladder urothelium. J Physiol. 562, 859-871(2005).
36. Sui, G. P. et al. Gap junctions and connexin expression in human suburothelial interstitial cells. BJU Int. 90, 118-129 (2002).
37.Wang, E. et al. ATP and purinergic receptor dependent membrane traffic in bladder umbrella cells.J Clin Invest. 115, 2412–2422 (2005).
38. Burnstock, G. Purine-mediated signalling in pain and visceral perception. Trends Pharmacol Sci. 22,182–188(2001).
39. Cockayne, D. A. et al. Urinary bladder hyporeflexia and reduced pain-related behaviour in P2X3-deficient mice. Nature. 407, 1011-1015(2000).
40. Nickel, J. C. Interstitial cystitis-an elusive clinical target? J Urol. 170, 816-817 (2003).
41. Li, M. et al. Augmented bladder urothelial polyamine signaling and block of BK channel in the pathophysiology of overactive bladder syndrome. Am. J. Physiol., Cell Physiol.297, 1445-51 (2009).
42. Birder, L. A. et al. Alterations in P2X and P2Y purinergic receptor expression in urinary bladder from normal cats and cats with interstitial cystitis. Am J Physiol Renal Physiol. 287, 1084-91 (2004).
43. Araki, I. et al. Emerging families of ion channels involved in urinary bladder nociception . Pharmaceuticals. 3, 2248-2267 (2010).
44. Morrison, J. et al. in Neurophysiology and neuropharmacology (eds Khoury, S., Abrams, P.). 124-132 (Health Publication Ltd, 2002).
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