兔迷走复合区内微量注射TRH对奥迪氏括约肌肌电的影响及？…

目的和方法：本工作旨在研究兔迷走复合区（ＤＶＣ）内ＴＲＨ对奥迪氏括约肌电的调节作用及外周途径。结果：（１）ＤＶＣ内注射ＴＲＨ（０．８ｎｍｏｌ,μｌ）后,慢波电位（ＳＷ）频率不变,但锋电位频率（ＦＳＰＳＯ）及幅度（ＡＳＰ－ＳＯ）,锋电位发生率（ＩＳＰ）明显增加。（２）ＤＶＣ内分别注射不同剂量ＴＲＨ（０．１３,０．２５,０．５０,０．８０,１．３０ｎｍｏｌ,１μｌ）后,各剂量ＴＲＨ均能引起ＦＳＰＳＯ增     

兔迷走复合区内微量注射TRH对奥迪氏括约肌肌电的影响及传出途径分析

目的和方法：本工作旨在研究免迷走复合区（ＤＶＣ）内ＴＲＨ对奥迪氏括约肌（ＳＯ）肌电的调节作用及外周途径。结果：（１）ＤＶＣ内注射ＴＲＨ（０．８ｎｍｏｌ,１μｌ）后,慢波电位（ＳＷ）频率不变,但锋电位频率（ＦＳＰＳＯ）及幅度（ＡＳＰＳＯ）、锋电位发生率（ＩＳＰ）明显增加．（２）ＤＶＣ内分别注射不同剂量ＴＲＨ（０．１３,０．２５,０．５０,０．８０,１．３０ｎｍｏｌ,１μｌ）后,各剂量ＴＲＨ均能引起ＦＳＰＳＯ增加。随注射剂量的增加,ＳＯ反应强度和持续时间均增加,呈现明显的剂量反应关系。（３）ＤＶＣ内注射ＴＲＨ兴奋ＦＳＰＳＯ的效应可被静脉注射阿托品（０．２ｍｇ／ｋｇ）或迷走神经切断完全阻断,但不能被静脉注射酚妥拉明（１．５ｍｇ／ｋｇ）、心得安（１．５ｍｇ／ｋｇ）或脊髓切断术所阻断。结论：ＤＶＣ内ＴＲＨ可能对ＳＯ肌电有重要的调节作用,这种作用是通过迷走神经及外周Ｍ受体介导。     

电和L—谷氨酸钠刺激兔中缝隐核对膈神经放电的影响

实验在45只麻醉、自主呼吸、断双侧颈迷走神经的家兔上进行。电刺激或微量注射L-谷氨酸钠于中缝隐核(Nucleus raphe obscurus,NRO),观察到:(1)长串电脉冲刺激NRO(50—200μA,波宽0.3ms,100Hz,4—6s),出现膈神经放电被抑制的反应,被抑制的程度与刺激强度、刺激频率间存在相关性。(2)吸气期用短串电脉冲(100—200μA,波宽0.3ms,50—100Hz,5—20个脉冲)刺激NRO,可提前终止膈神经放电,产生吸气切断效应。吸气切断时间具有刺激落位和刺激强度依赖性。(3)NRO内微量注射细胞体兴奋剂谷氨酸钠(1mol/L,1μl),注药期间出现膈神经放电抑制,注药后为吸气时程(Ti)缩短和呼气时程(Te)延长。     

红霉素对兔Oddi括约肌和十二指肠肌电活动的影响

红霉素对兔Ｏｄｄｉ括约肌和十二指肠肌电活动的影响王玲康喜荣张经济（兰州医学院生理学教研室兰州７３００００）红霉素（ｅｒｙｔｈｒｏｍｙｃｉｎ，ＥＭ）可与胃动素受体结合，使内源性胃动素释放，诱发小肠移行性综合肌电（ｍｉｇｒａｔｉｎｇｍｙｏｅｌｅｃｔｒｉｃ...     

刺激中缝背核对大鼠小脑皮层下核团神经元电活动的影响

我们首次观察了电刺激大鼠中缝背核（ＤＲ）对小脑核团（ＤＣＮ）──内侧核（ＭＮ）,间位核（ＩＮ）和外侧核（ＬＮ）神经元电活动的影响。结果表明：刺激ＤＲ可引起ＤＣＮ神经元的抑制、兴奋和双相（兴奋－抑制、抑制－兴奋）三种不同类型的反应,其中以抑制性反应为主（７６％－９０％）;反应的潜伏期为１０—８４ｍｓ,但大多数细胞呈现小于３０ｍｓ的短潜伏期反应;ＤＣＮ细胞的自发放电频率为５－１２０Ｈｚ,自发放电频率高的神经元群体对ＤＲ刺激的反应比率却比自发放电频率低的群体低;静脉注射５－ＨＴ２／１ｃ受体阻断剂ｍｅｔｈｙｓｅｒｇｉｄｅ可以阻断ＤＣＮ细胞对ＤＲ刺激的抑制性反应（６６．７％－８３．３％）。这些结果提示中缝－小脑５－ＨＴ能纤维传入系统可能通过对ＤＣＮ细胞电活动的调制作用参予小脑的感觉运动整合过程。     

中缝背核对猫小脑浦肯野细胞电活动的影响

在麻醉并麻痹的猫上观察到:刺激中缝背核(DR)可引起小脑皮层浦肯野细胞(PC)兴奋或抑制(主要是抑制);由被动性腕关节屈伸运动刺激引起的外周本体传入可以增强或减速PC对DR刺激的反应。这些结果表明中缝-小脑5-HT能纤维的传入活动可以调制PC的放电活动,并与外周传入有相互作用。     

刺激中缝背核调制小脑间位核神经元电活动

刺激中缝背核（ｄｏｒｓａｌｒａｐｈｅｎｕｃｌｅｕｓ,ＤＲ）可以引起小脑间位核（ｉｎｔｅｒｐｏｓｅｄｎｕｃｌｅｕｓ,ＩＮ）神经元抑制,兴奋和双相（抑制－兴奋和兴奋－抑制）３种不同类型的反应,其中以抑制反应为主（７６．０％）,多数细胞的反应潜伏期〈３０ｍｓ。ＩＮ细胞的自发放电频率为５－１２０Ｈｚ,自发放电频率高的神经元群体对ＤＲ刺激的反应率却比自发放电频率低的群体低。静脉注射５－ＨＴ２／１ｃ受体阻断剂     

NO对家兔Oddi括约肌肌电活动和血压的影响

应用３２只家兔观察一氧氮对Ｏｄｄｉ括约肌肌电和血压的影响。静脉注射ＮＯ合酶抑制剂Ｎ＾Ｇ－硝基－Ｌ－精氨酸,可见ＳＯ肌电振幅增大和血压升高,Ｌ－ＮＮＡ所致的肌电活动增强可Ｌ－精氨酸反转。     

纳洛酮翻转刺激大鼠下丘脑弓状核对中缝背核单位活动的影响

实验在麻醉或制动的大鼠上进行。用玻璃微电极记录中缝背核单位活动及其对刺激弓状核的反应,并观察注射纳洛酮的作用。主要结果如下:(1)电刺激弓状核能明显影响中缝背核单位的放电活动,主要表现为抑制;(2)注射纳洛酮能翻转刺激弓状核对中缝背核单位放电的影响;(3)注射纳洛酮使中缝背核单位的自发放电频率显著增加。上述结果提示:刺激弓状核对中缝背核单位放电的影响,可能是通过释放内源性阿片样物质(β-内啡肽)而引起的。     

局部灌注NO前体和供体对Oddi括约肌肌电的影响

本实验室以往研究表明，给家兔静脉注射ＬＮＮＡ、Ｌａｒｇ及ＳＮＰ，可引起Ｏｄｄｉ括约肌（ＳＯ）肌电变化及血压改变，二者的变化在时相上有一定的吻合。为了探讨上述药物对ＳＯ运动的影响是直接的、还是由血压的变化间接引起的，向ＳＯ局部灌注上述药物，调节其浓...     

Action of gastrointestinal hormones on the myoelectric activity of the sphincter of Oddi in living rabbit

The aim of this work was to compare the action of gastrointestinal (GI) hormones on the myoelectrical activity of the sphincter of Oddi. Using an experimental design previously described, we studied the electrical activity of the sphincter of Oddi and compared the percentage variation in the number of spikes before and after injection of hormones. Increasing doses of the following hormones were injected i.v. at random: CCK, OP-CCK, caerulein, bombesin, gastrin, secretin and glucagon. CCK and caerulein (as previously found), and also bombesin, OP-CCK and gastrin increased the spikes activity of the sphincter of Oddi. Secretin had no effect and glucagon decreased this activity. There was no tachyphylaxis, but a good dose-effect relationship for each hormone. Compared on a molar basis caerulein is 8 times more effective than CCK and OP-CCK which in turn are more potent than bombesin. Gastrin acts only at pharmacological doses.     

5,7-双羟色胺损毁大鼠中缝背核后底丘脑核的神经活动增强

采用玻璃微电极在体细胞外记录法,观察了5,7-双羟色胺(5,7-dihydroxytryptamine,5,7-DHT)损毁大鼠中缝背核(dorsalraphenucleus,DRN)后,底丘脑核(subthalamicnucleus,STN)神经元电活动的变化。结果发现,对照组和DRN损毁组大鼠STN神经元的放电频率分别是(6.93±6.55)Hz和(11.27±9.31)Hz,DRN损毁组大鼠的放电频率显著高于对照组(P<0.01)。在对照组大鼠,13%的神经元呈现规则放电,46%为不规则放电,41%为爆发式放电;而在DRN损毁组大鼠,具有规则、不规则和爆发式放电的神经元比例分别为9%、14%和77%,爆发式放电的STN神经元比例明显高于对照组(P<0.01)。结果显示,DRN损毁后大鼠STN神经元的放电频率增高,爆发式放电增多,提示在正常大鼠DRN抑制STN神经元的活动。     

帕金森病大鼠中缝背核5-羟色胺能神经元电活动的变化

本实验采用玻璃微电极细胞外记录法,观察了帕金森病(Parkinson’s disease,PD)大鼠中缝背核(dorsal raphe nucleus, DRN)5-羟色胺(5-hydroxytryptamine,5-HT)能神经元电活动的变化。在大鼠右侧中脑黑质致密部内微量注射6-羟多巴胺(6- hydroxydopamine,6-OHDA)制作PD模型。结果显示,对照组和PD组大鼠DRN中5-HT能神经元的放电频率分别是(1．76±0．11)spikes／s(n=24)和(2．43±0．17)spikes／(n=21),PD组大鼠的放电频率显著高于对照组(P<0．001)。在对照组大鼠,92％(22／24)的神经元呈规则放电,8％(2／24)为爆发式放电;在PD组大鼠,具有规则、不规则和爆发式放电的神经元比例分别为9％(2／21)、43％(9／21)和48％(10／21),爆发式放电的5-HT能神经元比例明显高于对照组(P<0．001)。在对照组大鼠,DRN内局部注射5-HT1A拮抗剂WAY-100635(3μg/200nL)显著增加5-HT能神经元的放电频率而不影响其放电形式(n=19,P<0．002);而WAY-100635不改变PD组大鼠5-HT能神经元的放电频率和放电形式(n=17,P>0．05)。结果提示,用6-OHDA损毁黑质致密部造成的PD模型大鼠中神经元5-HT1A受体功能失调,并且DRN参与PD的病理生理学机制。     

Regulation of nucleus accumbens dopamine release by the dorsal raphe nucleus in the rat

The effects of microinfusingl-glutamate, serotonin (5-HT), (±)-8-hydroxy-2-(di-N-propylamino) tetralin (8-OH DPAT; a 5-HT_1A agonist), and muscimol (a GABA_A agonist) into the dorsal raphe nucleus on the extracellular levels of 5-HT, dopamine (DA) and their metabolites in the nucleus accumbens were studied in unanesthetized, freely moving, adult male Wistar rats, using the technique of microdialysis coupled with small-bore HPLC. Administration of 0.75 gl-glutamate produced a 25–50% increase (P<0.05) in the extracellular levels of both 5-HT and DA. On the other hand, infusion of 8-OH DPAT and, to a lesser extent, 5-HT produced a significant (P<0.05) decrease in the extracellular levels of both 5-HT and DA. Muscimol (0.25 or 0.50 g) had little effect on the extracellular concentrations of 5-HT or DA following its administration. In general, the extracellular levels of the major metabolites of 5-HT and DA in the nucleus accumbens were not altered by microinfusion of any of the agents. The data indicate that (a) the 5-HT neurons projecting to the nucleus accumbens from the dorsal raphe nucleus can be activated by excitatory amino acid receptors and inhibited by stimulation of 5-HT_1A autoreceptors, and (b) the dorsal raphe nucleus 5-HT neuronal system may regulate the ventral tegmental area DA projection to the nucleus accumbens.Special issue dedicated to Dr. Morris H. Aprison     

Down Regulated Expression of the β1 Subunit of the Big-conductance Ca^2＋ Sensitive K＋ Channel in Sphincter of Oddi Cells from Rabbits Fed with a High Cholesterol Diet

Hypercholesterolemia,which is closely related to gallbladder bile stasis,can cause sphincter ofOddi dysfunction (SOD) by increasing the tension of sphincter of Oddi (SO).Intracellular calcium ionconcentration ([Ca~(2 )]_i) could influence the tension of SO.The β1 subunit of the big-conductance Ca~(2 )sensitive K~ channel (BK_(Ca) can enhance the sensitivity of the BK_(Ca) channel to [Ca~(2 )]_i.Absence and decline ofthe BK_(Ca) channel subunit β1 could lead to many diseases.However,the relationship betweenhypercholesterolemia and the expression of β1 subunit is not well understood.In this study,we successfullyexpressed and purified the rabbit BK_(Ca) β1 subunit protein and prepared its polyclonal antibody.The specificityof the prepared antibody was determined by western blotting.A SOD rabbit model induced by a high cholesteroldiet was established and the expression of the β1 subunit of SO was determined by immunohistochemicalstaining and western blotting.Compared with the controls,our results demonstrated that hypercholesterolemiacould decrease the expression of the β1 subunit in the SO cells from rabbits.This indicates that lowerexpression of BK_(Ca) channel β1 subunit might induce SOD.     

Synaptic relations of neurotensinergic neurons in the dorsal raphe nucleus

The ultrastructure and synaptic relations of neurotensinergic neurons in the rat dorsal raphe nucleus (DRN) were examined. The neurotensin-like immunoreactive (NT-LI) neurons in the DRN were fusiform or spherical. The NT-LI perikarya could only be detected in colchicine-treated animals whereas the immunoreactive axon terminals could only be found in the anirnals not treated with colchicine. Although many NT-LI dendrites received synapses from nonimmunoreactive axon terminals, the NT-LI perikarya received few synapses. NT-LI axon terminals also made synapses on nonimmunoreactive dendrites. Occasionally, synapses were found between the NT-LI axon terminals and NT-LI dendrites in the cases in which the animals were not treated with colchicine.     

Differential Effect of NMDA on Extracellular Serotonin in Rat Midbrain Raphe and Forebrain Sites

Abstract: The contribution of NMDA receptors to regulation of serotonin (5-HT) release was assessed by in vivo microdialysis in freely behaving rats. During infusion of NMDA (30, 100, and 300 µ M ) into the dorsal raphe nucleus (DRN), 5-HT was increased by ∼25, 100, and 280%, respectively. Competitive and noncompetitive NMDA-receptor antagonists blocked this effect on DRN 5-HT. Infusion of NMDA (300 µ M ) into the DRN also produced an 80% increase in extracellular 5-HT in the nucleus accumbens. During infusion of NMDA (100 and 300 µ M ) into the median raphe nucleus (MRN), 5-HT was increased by ∼15 and 80%, respectively. NMDA-receptor antagonists blocked this effect on MRN 5-HT. Infusion of NMDA into the MRN also produced a significant increase in hippocampal 5-HT. In contrast, infusion of NMDA into the nucleus accumbens, frontal cortex, or hippocampus produced small decreases in 5-HT in these forebrain sites. Taken together, these results suggest that NMDA receptors in the midbrain raphe, but not the forebrain, can have an excitatory influence on 5-HT neurons and, thus, produce increased 5-HT release in the forebrain. Furthermore, in comparison with the MRN, DRN 5-HT neurons were more sensitive to the excitatory effect of NMDA.     

Single-cell activity and network properties of dorsal raphe nucleus serotonin neurons during emotionally salient behaviors

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Arginine vasopressin in hypothalamic paraventricular nucleus is transferred to the nucleus raphe magnus to participate in pain modulation

Hypothalamic paraventricular nucleus (PVN) is one of the main sources of arginine vasopressin (AVP) synthesis and secretion. AVP is the most important bioactive substance in PVN regulating pain process. Our pervious study has pointed that pain stimulation induced AVP increase in the nucleus raphe magnus (NRM), which plays a role in pain modulation. The present study was designed to investigate the source of AVP in the rat NRM during pain process using the methods of nucleus push–pull perfusion and radioimmunoassay. The results showed that pain stimulation increased the AVP concentration in the NRM perfusion liquid, PVN cauterization inhibited the role that pain stimulation induced the increase of AVP concentration in the NRM perfusion liquid, and PVN microinjection of l-glutamate sodium, which excited the PVN neurons, could increase the AVP concentration in the NRM perfusion liquid. The data suggested that AVP in the PVN might be transferred to the NRM to participate in pain modulation.