脑啡肽对离体动脉条收缩活动的影响及其机制分析

亮氨酸脑啡肽(L-ENK)和甲硫氨酸脑啡肽(M-ENK)对兔耳动脉条在电场刺激下所产生的收缩反应具有抑制作用,此抑制效应具有剂量依赖关系,并且可以被阿片受体阻断剂纳洛酮阻断。用荧光法测定动脉条去甲肾上腺素(NE)释放量的实验表明,脑啡肽(ENK)是通过抑制支配动脉壁交感神经末梢释放NE,继而抑制血管平滑肌收缩的。实验还证明,吗啡对动脉条的收缩无抑制作用,从而表明在兔耳动脉上以δ亚型阿片受体为主,可能无μ亚型阿片受体。可卡因和育亨宾通过不同的作用途径使动脉条释放NE增加。     

离体兔耳动脉中内啡肽的含量及其作用的研究

已有实验证明,外周动脉壁上含有阿片受体。但其中是否含有内啡肽(OLS),迄今尚无定论。本文以兔耳动脉条为实验材料,用生物鉴定法测定了OLS的含量,又用放射免疫法测定了亮脑啡肽(Leu-enk)的含量,其平均值分别为377.2±118.0和40.51±6.1(pg/mg 组织湿重)。这表明,在兔耳动脉壁上是有 OLS生物活性和 Leu-enk 免疫活性物质存在的。本实验还通过电场刺激动脉条引起收缩的高度的变化,分析了 OLS(或 Leu-enk)对收缩活动的影响。用纳洛酮阻断阿片受体后,动脉条的收缩反应明显增高;用链霉蛋白酶分解OLS(或Leu-enk)后,动脉条的收缩反应也同样明显增高。这提示,动脉条在电场刺激下释放的OLS(或Leu-enk),对其收缩活动有明显抑制作用。本工作的某些初步结果还提示,OLS(或Leu-enk)的这一抑制效应,可能是通过突触前抑制去甲肾上腺素的释放和突触后抑制平滑肌而实现的。     

强啡肽抑制离体血管收缩效应的机制

用离体血管电场刺激收缩模型观察到强啡肽明显抑制电场刺激引起的兔耳中心动脉及兔肠系膜上动脉的收缩效应,且呈剂量反应关系,而对股动脉的电场刺激收缩反应无明显影响,强啡肽抑制血管收缩达50％时的用量(IC_(50)值)分别为8.5±1.2×10~(-6)mol/L、5.02±1.3×10~(-7)mol/L及>10~(-6)mol/L。 用药物分析法看到,酚妥拉明(10~(-6)mol/L)可取消电场刺激及去甲肾上腺素引起的血管收缩作用,而强啡肽仅抑制电场刺激致血管收缩作用。 用HPLC法测定孵育液中去甲肾上腺素的含量变化时看到,应用强啡肽(5×10~(-7)mol/L)后孵育液中去甲肾上腺素的含量从对照组的340.56±73.13pg/ml下降至67.91±10.26pg/ml,两组差别有极显著意义(P<0.01)。纳洛酮(10~(-6)mol/L)可完全拮抗强啡肽的这一抑制效应。 以上结果提示强啡肽可能通过抑制交感神经末梢释放去甲肾上腺素,从而产生抑制血管的收缩作用。     

电针刺激加速大鼠中枢脑啡肽的合成

应用放射免疫分析法测定大鼠纹状体、下丘脑、丘脑、桥延脑内甲啡肽和亮啡肽样免疫活性物质(Ir-MEK,Ir-LEK)的含量。脑室注射氨基肽酶抑制剂 bestatin(B)或“脑啡肽酶”抑制剂 thiorphan(T)各50μg 并不影响脑内 Ir 脑啡肽含量,合并应用 B T 各50μg 仅引起下丘脑 Ir-MEK 含量轻度上升。这说明安静状态下中枢脑啡肽的更新率不高。给大鼠电针30min 使纹状体和下丘脑 Ir-MEK 和 Ir-LEK 含量升高约40%(33—52%)(P<0.01)。在脑室注射 B T 各100μg 以及腹腔注射非特异性肽酶抑制剂 D-苯丙氨酸250mg/Kg的基础上电针,则使 Ir-MEK 和 Ir-LEK 含量升高约120%(94—147%)(P<0.01)。以上结果说明30min 电针刺激既促进脑啡肽的合成,也促进其释放。由于前者超过后者,因此静态含量升高。在中枢脑啡肽含量升高的同时,电针镇痛效果加强。说明由于肽酶抑制剂的保护作用而积聚于脑内的脑啡肽是具有功能意义的。     

损毁和刺激下丘脑弓状核区对大鼠脑和脊髓内亮-脑啡肽、多巴胺、去甲肾上腺素含量的影响

本工作分别采用新生期大鼠注射谷氨酸-钠(MSG)损毁弓状核区及电刺激弓状核(ARC)区的方法,观察对脑和脊髓内亮-脑啡肽(LEK)、多巴胺(DA)和去甲肾上腺素(NE)含量的影响。MSG 大鼠脑和脊髓内 LEK、NE 含量较对照组无明显变化,但端脑内 DA 含量显著升高。刺激 ARC 区后脊髓内 NE 含量明显上升。上述结果提示:弓状核区对端脑 DA 能系统可能具有某种紧张性抑制作用,而刺激弓状核产生的镇痛效应可能和下行 NE 能系统有一定关系。     

P物质、脑啡肽在豚鼠耳蜗的分布——免疫组织化学观察

本研究应用免疫组织化学方法系统地观察了P物质(SP)、亮氨酸脑啡肽(L-ENK)在豚鼠耳蜗的分布以及SP、L-ENK免疫反应阳性神经纤维与Corti's器毛细胞之间的关系,结果表明:SP的免疫反应活性(SP-IR)存在于耳蜗螺旋神经节的部分神经细胞及传入神经纤维中,在Corti's器的毛细胞下方亦可见SP免疫反应阳性纤维;L-ENK的免疫反应活性(ENK-IR)存在于耳蜗的传出神经纤维中。节内螺旋束、内螺旋束、隧道螺旋束、横贯纤维均含有大量的L-ENK免疫反应阳性纤维,Cort's器中的L-ENK免疫反应阳性终末与毛细胞之间具有密切接触,由此提示,SP可能为听觉初级传入神经递质之一;L-ENK作为传出神经递质或调质对听觉传入起调控作用。     

高盐饮食对大鼠血压和脑内脑啡肽含量的影响

大鼠47只,高盐饮食饲养4个月后,尾部收缩期血压为135±2mmHg((?)±SEM),较对照组(40只)102±1mmHg明显升高(P<0.001)。高盐饮食组大鼠的纹状体和脑干的甲硫氨酸脑啡肽(MEK)和亮氨酸脑啡肽(LEK)的含量,均较对照组明显增加(p<0.01),下丘脑区亦增加(P<0.01或P<0.05),而丘脑和海马区与对照组相比,无显著差别。高盐饮食组大鼠血浆中的血管紧张素Ⅰ浓度,比对照组为低(P<0.05)。     

1例雄性朱鹮脑内脑啡肽的免疫组织化学分布

用免疫组织化学方法研究脑啡肽(ENK)在极危物种朱(Nipponia nippon)脑内的分布,结合计算机图像分析仪检测免疫阳性细胞和末梢的灰度值。ENK阳性细胞、纤维和终末分布如下:发声核团有原纹状体中间区腹部、丘脑背内侧核外侧部、中脑丘间核、中脑背内侧核、延髓舌下神经核。听觉中枢有丘脑卵圆核壳区、中脑背外侧核壳区、脑桥外侧丘系腹核、上橄榄核、耳蜗核等。内分泌核团有视前区前核、旧纹状体增加部、下丘脑外侧核、下丘脑腹内侧核等。结果表明,朱脑内ENK可能对发声、听觉和下丘脑内分泌的生理活动有一定的调制作用。     

侧脑室注射CRH 对急性冷暴露长爪沙鼠BAT 产热的影响及产热调节机理

长爪沙鼠侧脑室注射促肾上腺皮质激素释放激素(CRH) 8μg 或CRH受体阻断剂2.5μg 后, 4 ±1 ℃暴露3 h ,对照组注射等体积生理盐水并置于24 ±2 ℃或4 ±1 ℃下。与常温对照组相比, 低温对照组褐色脂肪组织(BAT) 重量下降, BAT中解偶联蛋白(UCP1) mRNA 上调; 下丘脑促甲状腺激素释放激素(TRH) 含量降低, 血清T₃ 、T₄ 、T₃/T₄水平及BAT中T₄5′脱碘酶活性均增加, 血清去甲肾上腺素(NE) 含量上升。与低温对照组相比, 侧脑室注射CRH后再冷暴露, BAT重量、蛋白总含量和UCP1 mRNA 含量趋于减少; 血清NE 含量上升, BAT 中T₄ 5′脱碘酶活性增加, 但下丘脑TRH 含量、血清T₃ 、T₄ 及T₃/T₄ 水平均降低。侧脑室注射215μg 的CRH 受体阻断剂α- helical CRH 9 - 41 , 对冷暴露长爪沙鼠甲状腺轴的分泌、BAT重量、血清中NE 水平及UCP1 mRNA 含量没有明显影响。结果表明, 急性冷暴露激活了长爪沙鼠下丘脑- 垂体- 甲状腺(HPT) 轴和交感神经系统, 刺激BAT产热和UCP1 合成; 而CRH作用于中枢, 可能一方面抑制HPT轴的分泌, 进而抑制UCP1 的基因表达, 另一方面又刺激交感神经,增加产热。     

最后区微量注射辣椒素对大鼠血压、心率和肾交感神经放电的影响

在36只麻醉Sprague-Dawley大鼠, 观察了最后区内微量注射辣椒素(10 μmol/L, 50 nl)对平均动脉压(MAP)、心率(HR)和肾交感神经放电(RSNA)的影响.实验结果如下:(1)最后区内注射辣椒素可引起 MAP、HR 和RSNA明显增加, 分别由12.34±0.53 kPa、 328.52±7.54 bpm 和100±0% 增至15.17±0.25 kPa (P<0.001)、 354.81±8.54 bpm (P<0.001) 和156.95±7.57% (P<0.001);(2) 静脉注射辣椒素受体阻断剂钌红(100 mmol/L, 0.2 ml) 后, 辣椒素的上述效应可被明显抑制;(3) 预先应用NMDA 受体阻断剂MK-801 (500 μg/kg, 0.2 ml, iv)也明显抑制辣椒素的兴奋效应.以上结果提示, 最后区微量注射辣椒素对血压、心率和肾交感神经放电有兴奋作用, 而此作用由辣椒素受体介导并有谷氨酸参与.     

Endothelin-1 enhances responses to sympathetic nerve stimulation in endothelium-denuded and endothelium-intact rabbit ear arteries

In the rabbit isolated and endothelium-denuded ear artery, endothelin-1 (1–10 nM) elicited concentration-dependent vasoconstrictor responses. Lower concentrations of endothelin-1 (0.1, 0.3 and 1 nM) with little or no direct vasoconstrictor action significantly enhanced responses to sympathetic nerve stimulation in both endothelium-denuded and endothelium-intact arteries. The vasoconstrictor action of endothelin-1 and its enhancing effect on stimulation-induced responses were significantly decreased by the presence of the dihydropyridine-type calcium channel antagonist nicardipine (10 nM). The enhancing effect of low concentrations of endothelin-1 on responses to sympathetic nerve stimulation may play a role in the regulation of vascular tone.     

Effect of prostaglandin E2 on the pressor response to periarterial stimulation and norepinephrine of the isolated perfused rabbit kidney.

The interaction of prostaglandin E2 (PGE2) and aspirin with the responses to peri-arterial stimulation (PS) and norepinephrine (NE) was studied in the isolated kidney of rabbit perfused through the renal artery at constant flow with Krebs' solution. NE and PS increased vascular perfusion pressure of kidney and caused a contraction on the isolated rabbit aortic strip superfused with the effluent from kidney. Addition of PGE2 to the perfusion medium decreased the PS-induced rise in perfusion pressure without changing the effect of exogenous NE. In contrast, addition of aspirin to the perfusion medium induced a potentiation of the response to PS but not to NE. These results suggest that PGE2 modulates the effect of PS probably by inhibiting the releases of NE from sympathetic nerve endings.     

Atrial natriuretic factor attenuates sympathetic neuroeffector responses in hindlimb vasculature of rabbits

To determine whether atrial natriuretic factor (ANF) affects vasoconstrictor responses to electrical stimulation of sympathetic nerves or intra-arterial norepinephrine (NE), changes in perfusion pressure were measured during lumbar sympathetic nerve stimulation (LSNS, 1-8 Hz), or administration of NE (50-200 ng), in an isolated constant flow-perfused hindlimb of chloralose-anesthetized rabbit before and after intra-arterial infusion of ANF (0.5 ng.mL-1.min-1). ANF significantly attenuated responses to LSNS (relative potency, RP = 0.65) and to NE (RP = 0.47). We conclude that ANF attenuates vasoconstrictor responses to both LSNS and NE. Thus ANF alters sympathetic nervous system mediated changes in vascular resistance possibly at the neuroeffector site.     

Impaired function of alpha2-adrenergic autoreceptors on sympathetic nerves associated with mesenteric arteries and veins in DOCA-salt hypertension

The present study tested the hypothesis that there is impaired function of alpha(2)-adrenergic autoreceptors and increased transmitter release from sympathetic nerves associated with mesenteric arteries and veins from DOCA-salt rats. High-performance liquid chromatography was used to measure the overflow of ATP and norepinephrine (NE) from electrically stimulated mesenteric artery and vein preparations in vitro. In sham arteries, nerve stimulation evoked a 1.5-fold increase in NE release, whereas in DOCA-salt arteries there was a 3.9-fold increase in NE release over basal levels (P < 0.05). In contrast, stimulated ATP release was not different in DOCA-salt arteries compared with sham arteries. In sham veins, nerve stimulation evoked a 2.9-fold increase in NE release, whereas in DOCA-salt veins there was a 8.4-fold increase in NE release over basal levels (P < 0.05). In sham rats NE release, normalized to basal levels, was greater in veins than in arteries (P < 0.05). The alpha(2)-adrenergic receptor antagonist yohimbine (1 microM) increased ATP and NE release in sham but not DOCA-salt arteries. The alpha(2)-adrenergic receptor agonist UK-14304 (10 microM) decreased ATP release in sham but not DOCA-salt arteries. In sham veins, UK-14304 decreased, but yohimbine increased, NE release; effects that were not observed in DOCA-salt veins. These data show that nerve stimulation causes a greater increase in NE release from nerves associated with veins compared with arteries. In addition, impairment of alpha(2)-adrenergic autoreceptor function in sympathetic nerves associated with arteries and veins from DOCA-salt rats results in increased NE release.     

Differential responses of regional sympathetic activity and blood flow to visceral afferent stimulation

The sympathetic nervous system is essential for the cardiovascular responses to stimulation of visceral afferents. It remains unclear how the reflex-evoked sympathetic output is distributed to different vascular beds to initiate the hemodynamic changes. In the present study, we examined changes in regional sympathetic nerve activity and blood flows in anesthetized cats. Cardiovascular reflexes were induced by either electrical stimulation of the right splanchnic nerve or application of 10 microg/ml of bradykinin to the gallbladder. Blood flows were measured using colored microspheres or the Transonic flow meter system. Sympathetic efferent activity was recorded from the left splanchnic, inferior cardiac, and tibial nerves. Stimulation of visceral afferents decreased significantly blood flows in the celiac (from 49 +/- 4 to 25 +/- 3 ml/min) and superior mesenteric (from 35 +/- 4 to 23 +/- 2 ml/min) arteries, and the vascular resistance in the splanchnic bed was profoundly increased. Consistently, stimulation of visceral afferents decreased tissue blood flows in the splanchnic organs. By contrast, activation of visceral afferents increased significantly blood flows in the coronary artery and portal vein but did not alter the vascular resistance of the femoral artery. Furthermore, stimulation of visceral afferents increased significantly sympathetic efferent activity in the splanchnic (182 +/- 44%) but not in the inferior cardiac and tibial nerves. Therefore, this study provides substantial new evidence that stimulation of abdominal visceral afferents differentially induces sympathetic outflow to the splanchnic vascular bed.     

Botulinum neurotoxin A attenuates release of norepinephrine but not NPY from vasoconstrictor neurons

We examined effects of botulinum neurotoxin A (BoNTA) on sympathetic constrictions of the vena cava and uterine artery from guinea pigs to test the role of soluble NSF attachment protein receptor (SNARE) proteins in release of the cotransmitters norepinephrine (NE) and neuropeptide Y (NPY). Protein extracts of venae cavae and uterine arteries showed partial cleavage of synaptosomal associated protein of 25 kDa (SNAP-25) after treatment in vitro with BoNTA (50-100 nM). The rising phase of isometric contractions of isolated venae cavae to field stimulation at 20 Hz, mediated by NE acting on alpha-adrenoceptors, was reduced significantly by 100 nM BoNTA. However, sustained sympathetic contractions mediated by NPY were not affected by BoNTA. In uterine arteries, noradrenergic contractions to 1-Hz stimulation were almost abolished by BoNTA, and contractions at 10 Hz were reduced by 50-60%. We conclude that SNARE proteins are involved in exocytosis of NE from synaptic vesicles at low frequencies of stimulation but may not be essential for exocytosis of NPY and NE from large vesicles at high stimulation frequencies.     

Norepinephrine release from the lung by sympathetic nerve stimulation inhibition by vagus and methacholine

A procedure to isolate the sympathetic nerve supply to the lung has been developed in the rabbit. Electrical stimulation (50V, 1ms, 10Hz) of these nerves released norepinephrine (NE) which could be measured in the outflows from lungs perfused via the pulmonary artery. On the average 19 ng NE/stimulation period were found in the perfusates. The release of NE from the lung by nerve stimulation is thereby demonstrated by direct measurement of the amine. Infusion of methacholine (1 or 10 ug/ml) and excitation of the vagus nerves inhibited the output of NE. These data suggest existence of a sympathetic-parasympathetic presynaptic balance in the lung.     

Effect of prostaglandin E2on the pressor response to peri-arterial stimulation and norepinephrine of the isolated perfused rabbit kidney

The interaction of prostaglandin E₂ (PGE₂) and aspirin with the responses to peri-arterial stimulation (PS) and norepinephrine (NE) was studied in the isolated kidney of rabbit perfused through the renal artery at constant flow with Krebs' solution. NE and PS increased vascular perfusion pressure of kidney and caused a contraction on the isolated rabbit aortic strip superfused with the effluent from kidney. Addition of PGE₂ to the perfusion medium decreased the PS-induced rise in perfusion pressure without changing the effect of exogenous NE. In contrast, addition of aspirin to the perfusion medium induced a potentiation of the response to PS but not to NE. These results suggest that PGE₂ modulates the effect of PS probably by inhibiting the release of NE from sympathetic nerve endings.     

Insulin inhibits norepinephrine overflow from peripheral sympathetic nerve ending.

The effects of insulin on peripheral nervous system are unknown. We therefore studied the effects of insulin on sympathetic nerve activity in isolated mesenteric arteries of Sprague-Dawley rats. The overflow of norepinephrine (NE) by electrical stimulation was used as the index of sympathetic nervous system activity. Insulin (0.5 to 1U/l) decreased the NE release in a dose-dependent fashion. This inhibitory effect was, however, reversed by either 5 x 10(-5)M cocaine or 5 x 10(-4)M ouabain treatment. Thus, we postulate that insulin attenuates NE overflow from peripheral sympathetic nerve endings, probably due to enhanced NE reuptake.