Kim Jae Heon, Ahn Young Soo, Song Yun Seob
Department of Urology, Soonchunhyang University College of Medicine, Seoul, Korea.
Department of Pharmacology, Yonsei University College of Medicine, Seoul, Korea.
Int Neurourol J. 2021 Nov;25(Suppl 2):S106-113. doi: 10.5213/inj.2142348.174. Epub 2021 Nov 30.
The lower urinary tract is believed to be centrally regulated with the involvement of a range of neurotransmitters. The parasympathetic excitatory input to the urinary bladder is suppressed when the serotonergic system is activated, and thereby voiding is blocked. In healthy people, continence is usually underpinned by hippocampal formation (circuit 3). In order to advance knowledge of how serotoninergic neurons and additional nerve fibers were correlated, the purpose of the present work was to research how the discharge of serotonin from hippocampal slices was affected by different neurotransmitters in rat models.
The adopted procedure involved administration of the central neurotransmitters acetylcholine, norepinephrine, dopamine, N-methyl-D-aspartate (NMDA), gamma-aminobutyric acid (GABA), glycine, and neuropeptide Y as well as monitoring of the alterations in the discharge of [3H]5-hydroxytryptamine (5-HT). Furthermore, to determine whether the effect of the neurotransmitters was influenced by interneuron, tetrodotoxin was also employed.
Acetylcholine (10-5M) did not alter [3H]5-HT discharge, whereas more 5-HT was discharged from the hippocampal slices of rats under stimulation by norepinephrine (10-5M) as well as dopamine (10-5M) and tetrodotoxin (10-6M) did not inhibit the discharge. By contrast, tetrodotoxin inhibited the discharge of [3H]5-HT that was exacerbated by NMDA (10-4M). Meanwhile, compared to control, GABA (10-5M), glycine (10-5M), or neuropeptide Y (10-6M) did not alter the [3H]5-HT discharge.
From the research findings, it can be concluded that 5-HT discharge from rat hippocampus is enhanced by norepinephrine and dopamine through direct effect on the 5-HT neuronal terminal. By contrast, 5-HT discharge is intensified by NMDA by activating interneurons.
下尿路被认为受一系列神经递质参与的中枢调节。当血清素能系统被激活时,膀胱的副交感神经兴奋性输入受到抑制,从而排尿受阻。在健康人群中,控尿通常由海马结构(回路3)支持。为了增进对血清素能神经元与其他神经纤维如何关联的认识,本研究的目的是在大鼠模型中研究不同神经递质如何影响海马切片中血清素的释放。
所采用的程序包括给予中枢神经递质乙酰胆碱、去甲肾上腺素、多巴胺、N-甲基-D-天冬氨酸(NMDA)、γ-氨基丁酸(GABA)、甘氨酸和神经肽Y,以及监测[3H]5-羟色胺(5-HT)释放的变化。此外,为了确定神经递质的作用是否受中间神经元影响,还使用了河豚毒素。
乙酰胆碱(10-5M)未改变[3H]5-HT释放,而去甲肾上腺素(10-5M)和多巴胺(10-5M)刺激下大鼠海马切片释放更多5-HT,河豚毒素(10-6M)未抑制释放。相比之下,河豚毒素抑制了NMDA(10-4M)加剧的[3H]5-HT释放。同时,与对照组相比,GABA(10-5M)、甘氨酸(10-5M)或神经肽Y(10-6M)未改变[3H]5-HT释放。
从研究结果可以得出结论,去甲肾上腺素和多巴胺通过直接作用于5-HT神经元终末增强大鼠海马中5-HT释放。相比之下,NMDA通过激活中间神经元增强5-HT释放。
