Subfornical organ-angiotensin II pressor system takes part in pressor response of emotional circuit

It has been proved that there are the subfornical organ (SFO)-nucleus paraventricularis (NPV)-rostral ventrolateral medulla (RVL) angiotension II (AngII) pressor system and the central amygdaloid nucleus (AC)-lateral hypothalamus/perifornical region (LH/PF) emotional pressor system in the brain. Because the LH/PF contains abundant AngII ergic neurons projecting to the SFO, the purpose of the present study was to examine whether the (SFO-NPV-RVL) AngII pressor system takes part in the AC-pressor response via AngII ergic neurons in the LH/PF. The results showed that (1) L-glutamate microinjection into the AC or LH/PF induced pressor responses. (2) Both the AC- and LH/PF-pressor responses could be reversed by preinjection of [Sar(1), Thr(8)]-angiotensin II (an antagonist of AngII) into either the SFO, NPV or RVL. Taken together with our previous findings that the projections of the CRF-ergic and SP-ergic neurons in the AC could activate the LH/PF, the above findings prove that: besides several known mechanisms of the brain AngII inducing pressor response, the (SFO-NPV-RVL) AngII pressor system also takes part in the AC-emotional pressor response via AngII ergic projections from the LH/PF to the SFO, which may be the neurophysiological basis of the brain AngII playing an important role in developing hypertension of the SHRs.     

中央杏仁核,外侧下丘脑／穹窿周围区,室旁核均参与岛皮层升压反应

实验用乌拉坦麻醉、箭毒制动、人工呼吸的大鼠。将谷氨酸注入岛皮层（ＩＮＳ）以及将Ｐ物质（ＳＰ）注入外侧下丘脑／穹窿周围区（ＬＨ／ＰＦ）或室旁核均引起升压反应。ＩＮＳ－升压反应可被杏仁核（ＡＣ）内预先注射普鲁卡因或谷氨酸二乙酯（ＧＤＥＥ,谷氨酸拮抗剂）以及ＬＨ／ＰＦ内注射［Ｄ－Ｐｒｏ＾２,Ｄ－Ｐｈｅ＾７,Ｄ－Ｔｒｐ＾９］－ＳＰ（ＤＰＤＰＤＴ,ＳＰ拮抗剂）明显衰减,但ＬＨ／ＰＦ内ＧＤＥＥ预处理对该反应无     

谷氨酸钠兴奋尾侧导水管周围灰质腹外侧部的升压反应及其在脑干内的传出通路

实验用乌拉坦麻醉、箭毒化、人工呼吸的大鼠,观察到:(1) 胞体兴奋剂L-谷氨酸钠(Glu)注入尾侧导水管周围灰质腹外侧部(PAG)引起明显的加压反应,(2) 该效应可被双侧延髓头端腹外侧(RVL)加压区内注射酚妥拉明或心得安衰减,但不受阿托品注入RVL影响;表明此升压反应是通过RVL及其内的α-及β-受体实现的。(3) RVL内注入心得安也可衰减电刺激腹侧臂旁核(NPV)的加压作用,却不影响Glu注入NPV的升压效应;结合以往的实验结果,提示尾侧PAG腹外侧部的神经元发出的轴突,可能一方面路过臂旁核直接作用于RVL内的β-受体,另一方面可能在臂旁核内换元,然后作用于RVL内的α-受体,而起升压作用。     

Mechanisms underlying pressor response of subfornical organ to angiotensin II.

In urethane-anesthetized rats, microinjection of angiotensin II (AII) into either the subfornical organ (SFO), nucleus paraventricularis (NPV), or rostral ventrolateral medulla (RVL), respectively, all induced pressor responses, but the heart rate remained unchanged. Preinjection of [Sar1, Thr8]-angiotensin II (ST-AII, an AII antagonist) into bilateral NPV blocked the SFO-pressor response to AII. Bilateral RVL pretreated with ST-All markedly attenuated the pressor response of the SFO or NPV to AII. Hexamethonium or methyl atropine (IV) also reduced the SFO-pressor response. The results show that All can activate the SFO, NPV, and RVL successively, thereby inducing the pressor response; both excitation of sympathetic nerves and inhibition of the cardiac vagus are involved in this response.     

脑内P物质在谷氨酸兴奋腹内侧核引起的升压反应中之作用

目的：分析谷氨酸兴奋下兵脑腹内侧核（NVM）引起升压反应的机制。方法：大鼠脑内或静脉注射不同药物,记录血压和心率的变化。结果：①L－谷氨酸（Glu)兴奋NVM、P物质（SP）注入背内侧核（NDM）室旁核（NPV）或延髓头端腹外侧区（RVL）均引起升压反应;②NVM升压反应可被双侧NDM、NPV或PVL内预先注射[D-Pro^2,D-Phe^7,D-Trp^9]-P物质（SP拮抗剂）衰减,但RVL内注射阿托品无此效应;③酚妥拉明（i.v.）也能使NVM升压反应减小,而心得安或甲基阿托品（i.v.）对该升压反应无影响。结论：兴奋NVM可通过NDM（SP受体）,作用于NPV（SP受体）升压区和RVL（SP受体）－交感缩血管神经系统产生升压反应。心交感和心迷走神经不参与该反应。     

P物质在谷氨酸兴奋外侧下丘脑—穹窿周围区引起的升压反…

Ｐ物质（ＳＰ）能神经元及其轴突末和受体广泛分布于很多心血管中枢。外侧下丘脑含ＳＰ能神经元,外侧下丘脑投射的升压区内又存在ＳＰ能纤维及ＳＰ受体;因此本工作检验ＳＰ在外侧下丘脑升压反应中的作用。实验显示：（１）Ｌ－谷氨酸兴奋外侧下天脑的穹窿周围区（ＬＨ／ＰＦ）或将ＳＰ分别注入各ＬＨ投射区,蓝斑（ＬＣ）、臂旁核（ＮＰＢ）或 导不管周围灰质（ＰＡＧ）均引起升压反应;（２）「Ｄ－Ｐｒｏ＾２,Ｄ－Ｐｈｅ＾７,     

脑内血管紧张素Ⅱ系统在穹窿下器升压反应中的作用

文献报道脑内存在血管紧张素Ⅱ系统。与此一致,本工作用氨基甲酸乙脂麻醉、箭毒制动、人工呼吸的大鼠观察到：（１）穹窿下器（ＳＦＯ）、室旁核（ＮＰＶ）或ＮＰＶ的投射区：延髓头端腹外侧区（ＲＶＬＭ）、导水管周围灰质（ＰＡＧ）、蓝斑（ＬＣ）内注入血管紧张素Ⅱ（ＡⅡ）均引起升压反应;（２）ＳＦＯ升压反应可被双侧ＮＰＶ或ＲＶＬＭ内预先注入［Ｓａｒ１,Ｔｈｒ８］ＡⅡ（ＳＴＡⅡ,ＡⅡ拮抗剂）明显衰减,ＮＰＶ升压反应也可被ＲＶＬＭ内注入ＳＴＡⅡ削弱;（３）双侧ＰＡＧ用ＳＴＡⅡ预处理后,ＡⅡ引起的ＮＰＶ或ＳＦＯ升压反应均明显减小;（４）ＮＰＶ升压反应还可被双侧ＬＣ内预先注射ＳＴＡⅡ衰减,但ＳＦＯ升压反应不受影响。结合我们以往工作曾显示兴奋ＰＡＧ或ＬＣ均可作用于ＲＶＬＭ引起升压反应,目前的结果表明：ＳＦＯ内的ＡⅡ能神经元通过ＮＰＶ内ＡⅡ能神经元,不仅可直接作用于ＲＶＬＭ引起升压反应,而且还可间接通过ＰＡＧ作用于ＲＶＬＭ起升压作用,但ＬＣ不参与ＳＦＯ升压反应。     

大鼠蓝斑内注入谷氨酸钠的心血管效应

Experiments were done on urethane anesthetized, tubocurarine immobilized and artificially ventilated rats and the following results were observed: (1) Injection of sodium L-glutamate (Glu) into locus coeruleus (LC) could evoke a pressor response, but heart rate was not significantly affected; while depressor and bradycardia effects were observed when injecting into closely adjacent areas. (2) The LC-pressor response decreased after a brain transection caudal to nucleus paraventricularis was made but remained unchanged if the transection was rostral to the nucleus; The LC-pressor response could also be attenuated by preinjection of phentolamine propranolol or atropine respectively into the rostral ventrolateral medulla (RVL). The above results suggest that LC-pressor response is not only mediated by RVL, but also by nucleus paraventricularis.     

谷氨酸钠兴奋室旁核引起的升压效应及其与蓝斑...

In urethane-anesthetized, tubocurarine-immobilized and artificially ventilated rats, microinjection of L-glutamate (Glu) into hypothalamic paraventricular nucleus (NPV) or locus coeruleus (LC) induced a pressor response. The LC-pressor response could be attenuated by preinjection of phentolamine or propranolol into bilateral NPV; Preinjection of phentolamine or bicuculline into bilateral NPV could also attenuate the depressor effect of A1-excitation by Glu, but preinjection of propranolol had no such effect; suggesting that the LC-pressor or A1-depressor effect is mediated partly by NPV, and GABAergic inhibitory interneurons in NPV may be involved in A1-depressor response.     

黑质升压和弓状核降压效应及二者间的机能联系

本工作用神经元胞体兴奋剂L-谷氨酸钠(Glu)注入箭毒化、人工呼吸大鼠的下丘脑弓状核(AR),引起血压下降,心率减慢;多巴胺(DA)受体激动剂去水吗啡注入AR和Glu注入黑质(SN)均产生升压和加速心率的效应,Glu(i.SN)效应可被DA受体阻断剂氟哌啶醇注入双侧AR阻断;从而证明:(1)AR具有降压、降心率功能;(2)黑质可通过AR内的DA受体对AR降压、降心率效应起抑制作用,而实现其加压、加速心率效应。     

Beta-endorphin- and GABA-mediated depressor effect of specific electroacupuncture surpasses pressor response of emotional circuit

It has been proved that input of specific electroacupuncture (EA) can activate beta-endorphin(beta-EP)ergic and noradrenergic neurons projecting to the rostral ventrolateral medulla (RVL), the latter acting upon the RVL-GABAergic interneurons, thereby produce depressor effect. The present study further shows that: (1) The EA depressor effect is strong enough to surpass the pressor response of the AC (nucleus amygdaloideus centralis)-emotional circuit, (2) both beta-endorphin (beta-EP) and GABA in the RVL mediate the EA antagonistic effect, (3) the EA effect does not take place in the AC and paraventricular nucleus (two key nuclei besides the RVL, which also have beta-EPergic input) in the emotional circuit.     

Periventricular forebrain mechanisms for blood pressure regulation

Periventricular forebrain regions participate in body fluid and cardiovascular regulatory mechanisms that are intimately related to neural participation in experimental hypertension. Ablation of preoptic-hypothalamic periventricular tissue surrounding the anteroventral third ventricle (AV3V) disrupts both angiotensin (AngII) and sodium regulatory mechanisms and prevents experimental hypertension in either renin-dependent or -independent models. When AV3V is spared, and central AngII pressor mechanisms are interrupted by subfornical organ ablation or anterior hypothalamic knife cuts, renin-dependent but not renin-independent models of hypertension are prevented. Volume-expanded models of hypertension may be mediated by a natriuretic hormone that also inhibits the sodium-potassium pump in vascular smooth muscle, resulting in increased vasoconstriction. Volume expansion-induced release of this humoral ATPase inhibitor is attenuated in rats with AV3V lesions. In the renin-independent, reduced renal mass model, development of hypertension is correlated with increased plasma levels of sodium-potassium pump inhibitor. AV3V ablation blocks both the hypertension and the increase in humoral ATPase inhibitor. Thus, Thus, central angiotensin pressor and natriuretic mechanisms overlap in AV3V, and prevention of renin-dependent and volume-dependent models of experimental hypertension by AV3V ablation appears linked to disruption of these functionally separable systems.     

兴奋大鼠延髓A1区引起降压、降心率效应的机制

在水合氯醛麻醉、箭毒化、人工呼吸的大鼠,观察到:(1) A_1区注入谷氨酸钠引起明显的血压下降和心率减慢。(2) 切断双侧颈迷走神经明显衰减A_1区的降压,降心率效应。(3) 延髓头端腹外侧区(RVL)预先注射酚妥拉明或心得安,均能明显衰减谷氨酸钠兴奋A_1区的降压效应,A_1区的降心率作用基本不受影响,将纳洛酮注入RVL后,A_1区的降压和降心率效应均无明显变化;注射荷包牡丹碱入RVL则使A_1区的降压、降心率效应反转。(4) RVL内注入酚妥拉明或心得安本身使基础血压降低,注射荷包牡丹碱入RVL则使基础血压升高(提示RVL内的α-,β-受体中介对RVE加压神经元的紧张性兴奋作用,GABA受体中介紧张性抑制作用);另一方面,RVL内注入心得安使基础心率减慢、注入纳洛酮或荷包牡丹碱使基础心率加快(说明β-受体中介紧张性心加速效应,阿片受体和GABA受体中介紧张性心抑制效应)。     

TRH: Cardiovascular and sympathetic modulation in brain nuclei of the rat

The cardiovascular and sympathetic effects of TRH in discrete cardiovascular-related brain nuclei were studied. Microinjections of TRH were made into the nucleus preopticus medialis (POM) of conscious rats and the nucleus tractus solitarius (NTS) of pentobarbitone-anesthetized, artificially respired rats. POM injections (1 μl, 0.8–80 nM) elicited dose dependent pressor and tachycardic responses which were accompanied by increased levels of norepinephrine (NE) and epinephrine (EPI) in the plasma. These pressor/tachycardic effects of TRH were also elicited in adrenal demedullated (ADM-x) rats, but completely abolished in ADM-x rats pretreated with bretylium (30 mg/kg, IA). NTS injections (0.1 μl, 30 and 150 nM) had a short depressor effect on blood pressure (BP) and a delayed increase in heart rate (HR). From these findings we suggest that the POM, a central nucleus in the AV3V region, may be an important forebrain site for autonomic regulation by TRH, mediated through the sympathetic nervous system.     

谷氨酸钠兴奋室旁核引起的升压效应及其与蓝斑-升压反应和A_1-降压反应间的关系

将L-谷氨酸钠(Glu)注入乌拉坦麻醉、箭毒化、人工呼吸大鼠的室旁核(NPV)或蓝斑内引起升压反应。蓝斑升压反应可被双侧室旁核内预先注射酚妥拉明或心得安明显衰减;双侧室旁核内预先注射酚妥拉明或荷包牡丹碱还可使Glu兴奋延髓A_1区引起的降压反应减小,但注射心得安对A_1-降压反应无明显影响。以上结果提示蓝斑-升压反应和A_1-降压反应均部分通过NPV实现,A_1降压过程中可能有NPV内GABA能抑制性中间神经元参与。     

Functional identification of central pressor pathways originating in the subfornical organ

The functional projections from pressor sites in the subfornical organ (SFO) were identified using the 2-deoxyglucose (2-DG) autoradiographic method in urethane-anesthetized, sinoaortic-denervated rats. Autoradiographs of brain and spinal cord sections taken from rats whose SFO was continuously stimulated electrically for 45 min with stereotaxically placed monopolar electrodes (150 microA, 1.5-ms pulse duration, 15 Hz) following injection of tritiated 2-DG were compared with control rats that received intravenous infusions of pressor doses of phenylephrine to mimic the increase in arterial pressure observed during SFO stimulation. Comparisons were also made to autoradiographs from rats in which the ventral fornical commissure (CFV), just dorsal to the SFO, was electrically stimulated. The pressor responses during either electrical stimulation of the SFO or intravenous infusion of phenylephrine were similar in magnitude. On the other hand, stimulation of the CFV did not elicit a significant pressor response. Electrical stimulation of the SFO increased 2-DG uptake, in comparison to the phenylephrine-infused rats, in the nucleus triangularis, septofimbrial nucleus, lateral septal nucleus, nucleus accumbens, bed nucleus of the stria terminalis, dorsal and ventral nucleus medianus (median preoptic nucleus), paraventricular nucleus of the thalamus, hippocampus, supraoptic nucleus, suprachiasmatic nucleus, paraventricular nucleus of the hypothalamus, and the intermediolateral nucleus of and central autonomic area of the thoracic spinal cord. In contrast, in rats whose CFV was stimulated, these nuclei did not demonstrate changes in 2-DG uptake compared with control animals that received pressor doses of phenylephrine. These data have demonstrated some of the components of the neural circuitry likely involved in mediating the pressor responses to stimulation of the SFO and the corrective responses to activation of the SFO by disturbances to circulatory and fluid balance homeostasis.     

血管紧张素—（1—7）在大鼠延髓头端腹外侧通过氨基酸类递质调节血压的作用

采用微量注射、微透析、高效液相色谱－荧光测定等技术和方法,观察和 血管紧张素－（1－7）[Ang-(1-7)]在延髓头端腹外侧（RVLM）与氨基酸类递质释放之间的关系,在麻醉大鼠RVLM注射Ang-(1-7)可引起血压升高,同时伴RVLM兴奋性氨基酸（EAA）释放增多;在RVLM注射Ang-(1-7)选择性受体拮抗剂Ang779可引起血压降低,同时伴RVLM EAA释放减少和抑制性氨基酸（IAA）释放增多,Ang-(1-7)的升压作用和Ang779的降压作用均可被相应的氨基酸受体拮抗剂部分阻娄。结果提示,Ang-(1-7)在RVLM的升压效庆可能部分是通过EAA释放增多所致;而Ang779在 RVLM的降压效应可能部分是通过EAA释放减少、IAA释放增多所致。     

大鼠蓝斑内注入谷氨酸钠的心血管效应及其中枢机制

本工作在乌拉坦麻醉、箭毒化、人工呼吸的大鼠观察到:(1)将 L-谷氨酸钠(Glu)微量注入蓝斑(LC)引起血压升高,心率无明显变化;注入 LC 邻近区引起血压降低、心率减慢。(2)在下丘脑的室旁核尾侧断脑可衰减 LC 加压效应,而室旁核头侧断脑对 LC 加压反应无明显影响,双侧延髓头端腹外侧区(RVL)内分别注射酚妥拉明、心得安、阿托品均使兴奋 LC 引起的加压效应衰减;提示蓝斑加压效应由室旁核和 RVL(及其内的α-、β-肾上腺素能受体,M-胆碱能受体)介导。     

Contribution of AMPA/kainate receptors in the rostral ventrolateral medulla to the hypotensive and sympathoinhibitory effects of clonidine

The depressor and sympathoinhibitory effect of the imidazoline drug clonidine is reported to be associated with functional states of the central glutamate receptors. The rostral ventrolateral medulla (RVLM) has been recognized as a specific target area for mediating the central depressor mechanism of clonidine. The objective of this study was to determine the role of the glutamate receptor subtype alpha-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid (AMPA)/kainate receptor within the RVLM in clonidine-induced depressor and sympathoinhibitory action in anesthetized normotensive rats. Unilateral microinjection of 200 pmol of 6-cyano-7-nitroquinoxaline-2,3-dione (CNQX), a potent AMPA/kainate receptor antagonist, into the RVLM completely abolished the pressor action evoked by AMPA (5 pmol) without affecting the pressor action of N-methyl-D-aspartate (20 pmol). Pretreatment with intra-RVLM injection of CNQX (20 and 200 pmol) dose dependently attenuated the reduction in blood pressure (BP), heart rate (HR), and renal sympathetic nerve activity (RSNA) elicited by intra-RVLM clonidine (5 nmol) or intravenous clonidine (10 microg/kg), while 2 pmol of CNQX did not alter clonidine-induced cardiovascular action. Furthermore, the decreases in BP, HR, and RSNA evoked by intravenous clonidine (10 microg/kg) or intra-RVLM clonidine (5 nmol) were reversed when CNQX (20 and 200 pmol) was subsequently injected into the RVLM. In conclusion, these data show that blockade of AMPA/kainate receptors in the RVLM significantly antagonizes decreases in BP, HR, and sympathetic activity induced by clonidine, suggesting that the AMPA/kainate receptors within the RVLM contribute to the depressor and sympathoinhibitory effect of clonidine.     

臂旁核和延髓头端腹外侧区在黑质升压效应中的作用

本实验室观察到黑质具有升压效应。用L-谷氨酸钠微量注入黑质可使血压升高,此效应可被DA受体阻断剂氟哌啶醇(Halo)微量注入臂旁核加压区基本阻断。我们过去的工作证明延髓头端腹外侧区(RVL)及其内的α-受体中介臂旁核的加压效应,本实验将酚妥拉明注入RVL能明显衰减黑质的加压效应,而将Halo注入RVL加压区对黑质加压效应无明显影响。以上结果提示臂旁核-RVL(α-受体)加压系统参与黑质加压效应。