OBJECTIVES: We investigated the effects of an arginase inhibitor on bladder overactivity and measured bladder arginase I and II mRNA levels in rats with chronic spinal cord injury (SCI). METHODS: We performed awake cystometrograms 3 to 4 weeks after spinal cord transection in female rats. Cystometric parameters such as mean amplitudes and number of non-voiding contractions (NVCs), voided volume, voiding efficiency, and micturition pressure were evaluated before and after intravenous (i.v.) injection of an arginase inhibitor (nor-NOHA: N(omega)-hydroxy-nor-L-arginine) in SCI rats. We also examined the effects of an NOS inhibitor (L-NAME: N(omega)-nitro-L-arginine methyl ester hydrochloride) to determine whether suppression of bladder overactivity by arginase inhibition is mediated by increased production of NO. In addition, we measured mRNA levels of arginase I and II in SCI bladders using quantitative real-time polymerase chain reaction (qRT-PCR). RESULTS: We found that nor-NOHA (10 mg/kg, i.v.) significantly decreased the amplitude and number of NVCs. There were no significant changes in other parameters before and after administration of vehicle or nor-NOHA at any dose. When we administered L-NAME (20 mg/kg, i.v.) before nor-NOHA injection (10 mg/kg, i.v.), nor-NOHA-induced inhibition of NVCs was prevented. The relative levels of both arginase I and II mRNA in the bladder were significantly higher in SCI rats compared with spinal cord-intact rats. CONCLUSIONS: These results suggest that arginase inhibition can suppress SCI-induced bladder overactivity as indicated by a reduction in NVCs. Thus, arginase inhibition could be an effective treatment for neurogenic bladder overactivity in pathological conditions such as SCI.
OBJECTIVES: We investigated the effects of an arginase inhibitor on bladder overactivity and measured bladder arginase I and II mRNA levels in rats with chronic spinal cord injury (SCI). METHODS: We performed awake cystometrograms 3 to 4 weeks after spinal cord transection in female rats. Cystometric parameters such as mean amplitudes and number of non-voiding contractions (NVCs), voided volume, voiding efficiency, and micturition pressure were evaluated before and after intravenous (i.v.) injection of an arginase inhibitor (nor-NOHA: N(omega)-hydroxy-nor-L-arginine) in SCI rats. We also examined the effects of an NOS inhibitor (L-NAME: N(omega)-nitro-L-arginine methyl ester hydrochloride) to determine whether suppression of bladder overactivity by arginase inhibition is mediated by increased production of NO. In addition, we measured mRNA levels of arginase I and II in SCI bladders using quantitative real-time polymerase chain reaction (qRT-PCR). RESULTS: We found that nor-NOHA (10 mg/kg, i.v.) significantly decreased the amplitude and number of NVCs. There were no significant changes in other parameters before and after administration of vehicle or nor-NOHA at any dose. When we administered L-NAME (20 mg/kg, i.v.) before nor-NOHA injection (10 mg/kg, i.v.), nor-NOHA-induced inhibition of NVCs was prevented. The relative levels of both arginase I and II mRNA in the bladder were significantly higher in SCI rats compared with spinal cord-intact rats. CONCLUSIONS: These results suggest that arginase inhibition can suppress SCI-induced bladder overactivity as indicated by a reduction in NVCs. Thus, arginase inhibition could be an effective treatment for neurogenic bladder overactivity in pathological conditions such as SCI.
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