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首页> 美国卫生研究院文献>American Journal of Physiology - Renal Physiology >Purinergic Signaling Mechanisms in the Lower Urinary Tract: Constitutively active PKA regulates neuronal acetylcholine release and contractility of guinea pig urinary bladder smooth muscle
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Purinergic Signaling Mechanisms in the Lower Urinary Tract: Constitutively active PKA regulates neuronal acetylcholine release and contractility of guinea pig urinary bladder smooth muscle

机译:下尿路的嘌呤能信号传导机制:组成性活性PKA调节豚鼠膀胱平滑肌神经元乙酰胆碱的释放和收缩

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Autonomic and somatic motor neurons that innervate the urinary bladder and urethra control the highly coordinated functions of the lower urinary tract, the storage, and the emptying of urine. ACh is the primary excitatory neurotransmitter in the bladder. Here, we aimed to determine whether PKA regulates neuronal ACh release and related nerve-evoked detrusor smooth muscle (DSM) contractions in the guinea pig urinary bladder. Isometric DSM tension recordings were used to measure spontaneous phasic and electrical field stimulation (EFS)- and carbachol-induced DSM contractions with a combination of pharmacological tools. The colorimetric method was used to measure ACh released by the parasympathetic nerves in DSM isolated strips. The pharmacological inhibition of PKA with H-89 (10 μM) increased the spontaneous phasic contractions, whereas it attenuated the EFS-induced DSM contractions. Intriguingly, H-89 (10 μM) attenuated the (primary) cholinergic component, whereas it simultaneously increased the (secondary) purinergic component of the nerve-evoked contractions in DSM isolated strips. The acetylcholinesterase inhibitor, eserine (10 μM), increased EFS-induced DSM contractions, and the subsequent addition of H-89 attenuated the contractions. H-89 (10 μM) significantly increased DSM phasic contractions induced by the cholinergic agonist carbachol. The inhibition of PKA decreased the neuronal release of ACh in DSM tissues. This study revealed that PKA-mediated signaling pathways differentially regulate nerve-evoked and spontaneous phasic contractions of guinea pig DSM. Constitutively active PKA in the bladder nerves controls synaptic ACh release, thus regulating the nerve-evoked DSM contractions, whereas PKA in DSM cells controls the spontaneous phasic contractility.
机译:支配膀胱和尿道的自主神经和躯体运动神经元控制着下尿路的高度协调功能,尿液的储存和排空。 ACh是膀胱中主要的兴奋性神经递质。在这里,我们旨在确定PKA是否调节豚鼠膀胱中神经元ACh的释放和相关的神经诱发逼尿肌平滑肌(DSM)收缩。等距DSM张力记录用于结合药理学工具测量自发的相位和电场刺激(EFS)和卡巴胆碱引起的DSM收缩。比色法用于测量DSM分离条中副交感神经释放的ACh。 H-89(10μM)对PKA的药理学抑制作用增加了自发的阶段性收缩,而减弱了EFS诱导的DSM收缩。有趣的是,H-89(10μM)减弱了(初级)胆碱能成分,而同时增加了DSM分离带中神经诱发的收缩的(次级)嘌呤能成分。乙酰胆碱酯酶抑制剂色氨酸(10μM)增加EFS诱导的DSM收缩,随后添加H-89减弱收缩。 H-89(10μM)显着增加了胆碱能激动剂卡巴胆碱诱导的DSM相收缩。 PKA的抑制降低了DSM组织中ACh的神经元释放。这项研究表明,PKA介导的信号通路差异性调节豚鼠DSM的神经诱发和自发性相位收缩。膀胱神经中的组成性活性PKA控制突触ACh的释放,从而调节神经诱发的DSM收缩,而DSM细胞中的PKA控制自发的相位收缩。

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