Basu Chakrabarty , Anthony J. Kanai , Marcus J. Drake , Christopher H. Fry
{"title":"通过蛋白激酶 G 依赖性途径控制小鼠膀胱中神经介导的和尿道上皮细胞的 ATP 释放","authors":"Basu Chakrabarty , Anthony J. Kanai , Marcus J. Drake , Christopher H. Fry","doi":"10.1016/j.cont.2024.101721","DOIUrl":null,"url":null,"abstract":"<div><h3>Aim:</h3><div>ATP signalling is involved in urinary bladder motor and sensory pathways, including stimulation-mediated release from parasympathetic varicosities to detrusor muscle and from urothelial cells when mechanically stressed. Both modalities are present in humans and other mammals but are especially prominent in overactive bladder syndromes. There is therefore an unmet need to understand how to regulate such release. This study tested the hypothesis that the nitric oxide (NO•)/ soluble guanylate cyclase (sGC)/ cyclic GMP/ protein kinase-G (PKG) pathway has a central role.</div></div><div><h3>Methods:</h3><div>In vitro nerve-mediated contractions and ATP/acetylcholine (ACh) release were measured from bladder wall strips, as was ATP release from urothelial cell suspensions subject to mechanical stresses. Enhanced spontaneous contractile activity was also measured in bladder wall preparations of spinal cord-injured mice. Interventions were designed to increase cellular cGMP levels (a cell-permeable cGMP analogue, a NO• donor, a phosphodiesterase inhibitor (PDEI), a sGC activator), or agents to reduce activity of pathway enzymes (sCG or PKG).</div></div><div><h3>Results:</h3><div>ATP-dependent contractions were reduced by the above interventions, as was ATP release; but ACh-dependent contractions and ACh release were unaffected. Spontaneous contractile activity was also reduced by the cGMP analogue and by a PDEI. ATP release from urothelial cell suspensions was also reduced by similar interventions.</div></div><div><h3>Conclusions:</h3><div>ATP release from efferent nerves and from urothelial cells were selectively reduced by upregulating the NO•/sGC/cGMP/PKG pathway. Translational aspects are discussed with respect to purinergic pathways and overactive bladder pathologies.</div></div>","PeriodicalId":72702,"journal":{"name":"Continence (Amsterdam, Netherlands)","volume":"12 ","pages":"Article 101721"},"PeriodicalIF":0.0000,"publicationDate":"2024-10-22","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Control of nerve-mediated and urothelial ATP release by a protein kinase G-dependent pathway in the mouse bladder\",\"authors\":\"Basu Chakrabarty , Anthony J. Kanai , Marcus J. Drake , Christopher H. 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Enhanced spontaneous contractile activity was also measured in bladder wall preparations of spinal cord-injured mice. Interventions were designed to increase cellular cGMP levels (a cell-permeable cGMP analogue, a NO• donor, a phosphodiesterase inhibitor (PDEI), a sGC activator), or agents to reduce activity of pathway enzymes (sCG or PKG).</div></div><div><h3>Results:</h3><div>ATP-dependent contractions were reduced by the above interventions, as was ATP release; but ACh-dependent contractions and ACh release were unaffected. Spontaneous contractile activity was also reduced by the cGMP analogue and by a PDEI. ATP release from urothelial cell suspensions was also reduced by similar interventions.</div></div><div><h3>Conclusions:</h3><div>ATP release from efferent nerves and from urothelial cells were selectively reduced by upregulating the NO•/sGC/cGMP/PKG pathway. 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引用次数: 0
摘要
目的:ATP 信号参与膀胱运动和感觉通路,包括副交感神经曲张到逼尿肌的刺激介导释放,以及尿路上皮细胞在机械压力下的释放。这两种模式都存在于人类和其他哺乳动物中,但在膀胱过度活动综合征中尤为突出。因此,人们需要了解如何调节这种释放。本研究测试了一氧化氮(NO-)/可溶性鸟苷酸环化酶(sGC)/环GMP/蛋白激酶-G(PKG)途径在其中发挥核心作用的假设。方法:从膀胱壁带测量了体外神经介导的收缩和ATP/乙酰胆碱(ACh)释放,并测量了在机械压力下尿道细胞悬浮液中的ATP释放。脊髓损伤小鼠的膀胱壁制备物中也测得了增强的自发收缩活动。干预的目的是提高细胞中 cGMP 的水平(一种细胞渗透性 cGMP 类似物、一种 NO 供体、一种磷酸二酯酶抑制剂 (PDEI)、一种 sGC 激活剂),或降低通路酶(sCG 或 PKG)的活性。cGMP类似物和PDEI也会降低自发性收缩活动。结论:通过上调 NO-/sGC/cGMP/PKG 通路,可选择性地减少传出神经和尿路细胞的 ATP 释放。结论:通过调节NO-/sGC/cGMP/PKG途径,可有选择性地减少传出神经和尿道细胞的ATP释放。
Control of nerve-mediated and urothelial ATP release by a protein kinase G-dependent pathway in the mouse bladder
Aim:
ATP signalling is involved in urinary bladder motor and sensory pathways, including stimulation-mediated release from parasympathetic varicosities to detrusor muscle and from urothelial cells when mechanically stressed. Both modalities are present in humans and other mammals but are especially prominent in overactive bladder syndromes. There is therefore an unmet need to understand how to regulate such release. This study tested the hypothesis that the nitric oxide (NO•)/ soluble guanylate cyclase (sGC)/ cyclic GMP/ protein kinase-G (PKG) pathway has a central role.
Methods:
In vitro nerve-mediated contractions and ATP/acetylcholine (ACh) release were measured from bladder wall strips, as was ATP release from urothelial cell suspensions subject to mechanical stresses. Enhanced spontaneous contractile activity was also measured in bladder wall preparations of spinal cord-injured mice. Interventions were designed to increase cellular cGMP levels (a cell-permeable cGMP analogue, a NO• donor, a phosphodiesterase inhibitor (PDEI), a sGC activator), or agents to reduce activity of pathway enzymes (sCG or PKG).
Results:
ATP-dependent contractions were reduced by the above interventions, as was ATP release; but ACh-dependent contractions and ACh release were unaffected. Spontaneous contractile activity was also reduced by the cGMP analogue and by a PDEI. ATP release from urothelial cell suspensions was also reduced by similar interventions.
Conclusions:
ATP release from efferent nerves and from urothelial cells were selectively reduced by upregulating the NO•/sGC/cGMP/PKG pathway. Translational aspects are discussed with respect to purinergic pathways and overactive bladder pathologies.
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