The role of ATP-receptor in controlling the urinary bladder and urethral function in rats

Abstract

The detrusor contraction involves an atropine resistant, nonadrenergic noncholinergic (NANC), component. Since adenosine triphosphate (ATP) has been proposed as a NANC transmitter, the role of ATP-receptors in the lower urinary tract was examined. The isovolumetric bladder contractions and the urethral pressure were monitored after intra-arterial administration of ATP analogues and other drugs in 52 female SD rats under intraperitoneal urethane anesthesia. alpha beta metATP induced a rapid, phasic increase of the maximal bladder pressure immediately after the drug administration, which was followed by a decrease during the P 2 X-purinoceptor desensitization period, but it did not affect the resting bladder pressure. RB-2 did not affect both the maximal bladder pressure and the resting bladder pressure. As for the urethral functions, alpha beta metATP induced a decrease of the resting urethral pressure during the P 2 X-purinoceptors desensitization period, while RB-2 induced a increase of the resting urethral pressure in contrast. ATP, alpha beta metATP and RB-2 did not changed the maximal urethral relaxation. The results will indicate that ATP produces detrusor contractions through the P 2 X-purinoceptor. Although ATP dose not affect urethral relaxation during voiding phase, it controls the urethral tone during collecting phase by both the excitation of P 2 X-purinoceptor and the inhibition of P 2 Y-purinoceptor.