血清素对调节下丘脑室旁核促肾上腺皮质激素释放因子神经元的局部兴奋性和抑制性神经回路的双重作用。

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2023-10-30 DOI:10.1111/jne.13351
Takayuki Sato, Takuma Sugaya, Ashraf Hossain Talukder, Yuki Tsushima, Shotaro Sasaki, Katsuya Uchida, Tatsuya Sato, Yoko Ikoma, Kenji Sakimura, Atsuo Fukuda, Ko Matsui, Keiichi Itoi
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引用次数: 0

摘要

来自中缝核的5-羟色胺能神经元已被提出调节下丘脑室旁核(PVH)中的促肾上腺皮质激素释放因子(CRF)神经元。由于构成下丘脑局部回路的含谷氨酸和γ-氨基丁酸(GABA)的神经元支配PVH-CRF神经元,我们检测了它们是否介导血清素(5-羟色胺[5-HT])对CRF神经元的作用。使用CRF修饰的黄色荧光蛋白(Venus)ΔNeo小鼠,在全细胞膜片钳下,在PVH-CRF神经元中记录自发兴奋性突触后电流(sEPCs)或自发抑制性突触后流(sIPSCs)。在正常培养基中测试,血清素导致77%的细胞中sEPCs的频率增加,71%的细胞中sIPSCs的频率降低。sEPSC和sIPSC的振幅和衰减时间均不受影响,因此血清素的作用位点可能是突触前的。在河豚毒素(TTX)存在的情况下,血清素对sEPSC或sIPSC的任何参数都没有显著影响,这表明血清素的作用是动作电位依赖性的,并且突触前中间神经元在切片内基本上是完整的;然而,可能存在远距离神经元,因为大约20%-30%的神经元在没有TTX的情况下对血清素没有反应。接下来,我们通过什么受体亚型血清素对突触前中间神经元产生影响来进行研究。DOI(5-HT2A/2C激动剂)模拟血清素对sIPSC的作用,选择性5-HT2C拮抗剂RS102221抑制血清素诱导的sIPSC频率降低。8-OH-DPAT(5-HT1A/7激动剂)模拟血清素对sEPSC的作用,选择性5-HT7拮抗剂SB269970抑制血清素诱导的sEPSC频率增加。因此,血清素对PVH-CRF神经元表现出双重作用,通过上调谷氨酸能和下调GABA能中间神经元;前者可能部分由5-HT7受体介导,而后者由5-HT2C受体介导。CRF VenusΔNeo小鼠可用于电生理检查。
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Dual action of serotonin on local excitatory and inhibitory neural circuits regulating the corticotropin-releasing factor neurons in the paraventricular nucleus of the hypothalamus

Serotonergic neurons originating from the raphe nuclei have been proposed to regulate corticotropin-releasing factor (CRF) neurons in the paraventricular nucleus of the hypothalamus (PVH). Since glutamate- and γ-aminobutyric acid (GABA)-containing neurons, constituting the hypothalamic local circuits, innervate PVH CRF neurons, we examined whether they mediate the actions of serotonin (5-hydroxytryptamine [5-HT]) on CRF neurons. Spontaneous excitatory postsynaptic currents (sEPSCs) or spontaneous inhibitory postsynaptic currents (sIPSCs) were recorded in PVH CRF neurons, under whole cell patch-clamp, using the CRF-modified yellow fluorescent protein (Venus) ΔNeo mouse. Serotonin elicited an increase in the frequency of sEPSCs in 77% of the cells and a decrease in the frequency of sIPSCs in 71% of the cells, tested in normal medium. Neither the amplitude nor decay time of sEPSC and sIPSC was affected, thus the site(s) of action of serotonin may be presynaptic. In the presence of tetrodotoxin (TTX), serotonin had no significant effects on either parameter of sEPSC or sIPSC, indicating that the effects of serotonin are action potential-dependent, and that the presynaptic interneurons are largely intact within the slice; distant neurons may exist, though, since some 20%–30% of neurons did not respond to serotonin without TTX. We next examined through what receptor subtype(s) serotonin exerts its effects on presynaptic interneurons. DOI (5-HT2A/2C agonist) mimicked the action of serotonin on the sIPSCs, and the serotonin-induced decrease in sIPSC frequency was inhibited by a selective 5-HT2C antagonist RS102221. 8-OH-DPAT (5-HT1A/7 agonist) mimicked the action of serotonin on the sEPSCs, and the serotonin-induced increase in sEPSC frequency was inhibited by a selective 5-HT7 antagonist SB269970. Thus, serotonin showed a dual action on PVH CRF neurons, by upregulating glutamatergic- and downregulating GABAergic interneurons; the former may partly be mediated by 5-HT7 receptors, whereas the latter by 5-HT2C receptors. The CRF-Venus ΔNeo mouse was useful for the electrophysiological examination.

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