PURPOSE: Retigabine is a novel anticonvulsant drug that not only augments gamma-aminobutyric acid mechanisms, but also opens voltage gated K+ channels (KCNQ). In this study we investigated the effects of retigabine on detrusor activity in rats. MATERIALS AND METHODS: To conscious, female Sprague-Dawley rats undergoing continuous cystometry retigabine was given intravenously (0.5, 1 and 5 mg/kg(-1)). The KCNQ channel blocker linopirdine was given intravenously (2 mg/kg(-1)) 5 minutes prior to retigabine (1 mg/kg(-1)). In addition, retigabine was given intracerebroventricularly (1, 5 and 10 microg) and intravesically (100, 500 and 1,000 ng ml(-1)). The effects of the drug (intravesical administration) on capsaicin induced bladder overactivity were also tested. RESULTS: Retigabine given intravenously (1 mg/kg(-1)) decreased baseline and maximal bladder pressures, increased voided and infused volumes, and increased voiding intervals. Retigabine (10 microg) given intracerebroventricularly decreased baseline pressure and increased voided and infused volumes as well as voiding intervals. However, bladder pressures were not significantly affected. Intravesical retigabine (1,000 ng.ml(-1)) decreased maximal bladder pressure, increased voided and infused volumes, and increased voiding intervals. Given intravesically for 30 minutes prior to intravesical capsaicin (30 microM) instillation retigabine (1,000 ng.ml(-1)) decreased the detrusor overactivity induced by capsaicin. The KNCQ channel blocker linopirdine (2 mg/kg(-1)) completely blocked the effects of intravenous retigabine (1 mg/kg(-1)). CONCLUSIONS: Retigabine given intravenously, intracerebroventricularly and intravesically increased micturition volume and voiding intervals and, when given intravesically, it decreased capsaicin induced detrusor overactivity, suggesting that KCNQ channels can be interesting targets for drugs aiming at micturition control. Retigabine may be a candidate to test as a treatment for detrusor overactivity in humans.
PURPOSE:Retigabine is a novel anticonvulsant drug that not only augments gamma-aminobutyric acid mechanisms, but also opens voltage gated K+ channels (KCNQ). In this study we investigated the effects of retigabine on detrusor activity in rats. MATERIALS AND METHODS: To conscious, female Sprague-Dawley rats undergoing continuous cystometry retigabine was given intravenously (0.5, 1 and 5 mg/kg(-1)). The KCNQ channel blocker linopirdine was given intravenously (2 mg/kg(-1)) 5 minutes prior to retigabine (1 mg/kg(-1)). In addition, retigabine was given intracerebroventricularly (1, 5 and 10 microg) and intravesically (100, 500 and 1,000 ng ml(-1)). The effects of the drug (intravesical administration) on capsaicin induced bladder overactivity were also tested. RESULTS:Retigabine given intravenously (1 mg/kg(-1)) decreased baseline and maximal bladder pressures, increased voided and infused volumes, and increased voiding intervals. Retigabine (10 microg) given intracerebroventricularly decreased baseline pressure and increased voided and infused volumes as well as voiding intervals. However, bladder pressures were not significantly affected. Intravesical retigabine (1,000 ng.ml(-1)) decreased maximal bladder pressure, increased voided and infused volumes, and increased voiding intervals. Given intravesically for 30 minutes prior to intravesical capsaicin (30 microM) instillation retigabine (1,000 ng.ml(-1)) decreased the detrusor overactivity induced by capsaicin. The KNCQ channel blocker linopirdine (2 mg/kg(-1)) completely blocked the effects of intravenous retigabine (1 mg/kg(-1)). CONCLUSIONS:Retigabine given intravenously, intracerebroventricularly and intravesically increased micturition volume and voiding intervals and, when given intravesically, it decreased capsaicin induced detrusor overactivity, suggesting that KCNQ channels can be interesting targets for drugs aiming at micturition control. Retigabine may be a candidate to test as a treatment for detrusor overactivity in humans.
Authors: Thomas A Jepps; Iain A Greenwood; James D Moffatt; Kenton M Sanders; Susumu Ohya Journal: Am J Physiol Gastrointest Liver Physiol Date: 2009-04-23 Impact factor: 4.052
Authors: Sean P Nassoiy; Favin S Babu; Heather M LaPorte; Kenneth L Byron; Matthias Majetschak Journal: Clin Exp Pharmacol Physiol Date: 2018-04-27 Impact factor: 2.557