家兔脑桥臂旁内侧核区微量注射吗啡对中缝大核区单位放电的影响

实验在62只家兔上进行。结果观察到,中缝大核(NRM)区562个单位中,有118个单位的自发放电频率低,放电比较规则,动作电位时程长,易被微电泳5-羟色胺所阻遏,称为A 组单位。其余444个单位的自发放电频率高,动作电位时程短,称为B 组单位。大多数 B组单位对微电泳5-羟色胺不起反应。脑桥臂旁内侧核(NPBM)区微量注射吗啡(200μg/2μl)或静脉注射吗啡(3mg/kg)后,20个A 组单位中有19个发生兴奋效应,而49个B 组单位中仅有29个发生兴奋效应,而且A组单位发生兴奋的程度也比B组单位的高。这些结果提示,NRM区的A 组单位可能是5-羟色胺神经元,吗啡对这些神经元有相对选择性的兴奋作用。 在另外11只家兔上,应用辣根过氧化物酶(HRP)逆行追踪技术观察到,NPBM 区与NRM 区有纤维联系。 本实验结果提示,静脉注射吗啡所致的呼吸抑制,可能与吗啡作用于 NPBM,通过纤维联系,引起NRM 5-羟色胺神经元兴奋有关。     

Differential staining of insect neurons with nickel and cobalt

Pairs of neurons were differentially stained by intracellular injection of the divalent cations, nickel and cobalt. Pairs of neuronal tracts could be similarly labelled following immersion of their axon bundles in the markers described. Use of nickel and a 4 : 6 mixture of cobalt and nickel according to the protocols presented here revealed the morphology of cricket neuron processes as thin as 1 μm in diameter and yielded a favourable contrast between the cells marked, as well as with respect to the background of unstained tissue.     

Decrease of Atrial Natriuretic Peptide Content in Rat Superior Cervical Sympathetic Ganglion After Denervation and Axotomy

We found atrial natriuretic peptide (ANP), known as a humoral factor in regulating body fluid volume and blood pressure, in considerable quantities in rat superior cervical sympathetic ganglion (SCG) by radioimmunoassay after separation with reverse-phase HPLC. Although the ANP content of the immature rat 1 week after birth was low, it doubled at 2 weeks and then increased gradually, until it reached the adult level. Denervation caused a rapid decrease in the ANP content to half of the intact SCG level after 3 h, which then fell to 10% of the control value on day 2 after operation. The time course of ANP content reduction after denervation was similar but rather faster than that of activity of the acetylcholine-synthesizing enzyme, choline acetyltransferase, an observation suggesting that ANP may partly contribute to cholinergic synaptic transmission. On the other hand, axotomy produced a rather slower decrease in the ANP content than did denervation. Enucleation and sialoadenectomy also caused a considerable reduction of the ANP content. Thus, part of the ANP found in the ganglion is apparently transported from sympathetically innervated extraganglionic organs via retrograde axoplasmic flow.     

Glial uptake system of GABA distinct from that of taurine in the bullfrog sympathetic ganglia

The kinetics and specificity of GABA and taurine uptake were studied in the bullfrog sympathetic ganglia. GABA uptake system consisted of simple saturable component and taurine uptake system consisted of two saturable components exclusive of non-saturable influx. Taurine unaffected GABA uptake while GABA inhibited taurine uptake competitively with theK _i/K_m ratio of 38. GABA (5.14 M) uptake was inhibited by -aminovaleric acid and slightly by 2,4-diaminobutyric acid (5 mM, each) among ten structural analogs. Taurine uptake under high-affinity conditions was most strongly suppressed by hypotaurine and -alanine competitively with theK _i/K_m ratio of 1.0 and 1.9, respectively. Autoradiography showed that glial cells were heavily labeled by both [³H]GABA and [³H]taurine. These results suggest that GABA is transported by a highly specific carrier system distinct from the taurine carrier and that taurine, hypotaurine, and -alanine may share the same high-affinity carrier system in the glial cells of the bullfrog sympathetic ganglia.     

兔下丘脑室旁核刺激引起的肾交感神经传出活动的抑制

本实验用家兔,氯醛糖及尿酯混合静脉麻醉,制动,人工呼吸,颈部分离出三对神经——迷走、窦及主动脉神经,以备实验中切断。记录股动脉压、肾交感神经传出性放电活动(RSED)及其频率幅度直方图。借助脑立体定向仪刺激下丘脑室旁核,当刺激较强时,在交感神经放电短暂增加之后,可引起血压升高及RSED抑制。这一抑制过程可分为两个时相:血压不变期间的初期抑制时相及与血压升高同时并存的后期抑制时相。实验发现RSED总抑制时程及后期抑制时程均与血压变动具有正相关关系,而初期抑制时程与血压变动无相关关系。切断压力感受性神经前后,虽初期抑制时程的均值无显著差异,但在切断压力感受性神经后,总抑制时程及后期抑制时程的均值大大缩短。当用较弱刺激施于室旁核时,可不引起血压变化,但仍能引起RSED抑制。这个抑制亦可因切断压力感受神经而显著缩短。上述实验结果表明:(1) 在中枢内存在着一个室旁核-肾交感传出系统的抑制机制;(2) 初期抑制来源于中枢性抑制机制,而后期抑制时相主要来源于压力感受性反射,但亦有中枢抑制机制的参与;(3) RSED的中枢抑制可能并不是兴奋后压抑,而是自室旁核至脊髓交感节前神经元的主动性抑制。     

Calcium-dependent Modulation of the Agonist Affinity of the Mammalian Olfactory Cyclic Nucleotide-gated Channel by Calmodulin and a Novel Endogenous Factor

The calcium-dependent modulation of the affinity of the cyclic nucleotide-gated (CNG) channels for adenosine 3′,5′-cyclic monophosphate (cAMP) was studied in enzymatically dissociated rat olfactory receptor neurons, by recording macroscopic cAMP-activated currents from inside-out patches excised from their dendritic knobs. Upon intracellular addition of 0.2 mm Ca²⁺ (0.2 Ca) the concentration of cAMP required for the activation of half-maximal current (EC₅₀) was reversibly increased from 3 μm to about 30 μm. This Ca²⁺-induced affinity shift was insensitive to the calmodulin antagonist, mastoparan, was abolished irreversibly by a 2-min exposure to 3 mm Mg²⁺+ 2 mm EGTA (Mg + EGTA), and was not restored by the application of calmodulin (CAM). Addition of CAM plus 0.2 mm Ca²⁺ (0.2 Ca + CAM), further reversibly shifted the cAMP affinity from 30 μm to about 200 μm. This affinity shift was not affected by Mg + EGTA exposure, but was reversed by mastoparan. Thus, the former Ca²⁺-only effect must be mediated by an unknown endogenous factor, distinct from CAM. Removal of this factor also increased the affinity of the channel for CAM. The affinity shift induced by Ca²⁺-only was maintained in the presence of the nonhydrolyzable cAMP analogue, 8-bromo-cAMP and the phosphatase inhibitor, microcystin-LR, ruling out modulation by phosphodiesterases or phosphatases. Our results indicate that the olfactory CNG channels are modulated by an as yet unidentified factor distinct from CAM. Received: 26 December 1995/Revised: 14 March 1996     

Prosaposin Facilitates Sciatic Nerve Regeneration In Vivo

Abstract: Prosaposin, a multifunctional protein, is the precursor of saposins, which activate sphingolipid hydrolases. In addition to acting as a precursor for saposins, prosaposin has been shown to rescue hippocampal CA1 neurons from lethal ischemic damage in vivo and to promote neurite extension of neuroblastoma cells in vitro. Here we show that prosaposin, when added to a collagen-filled nerve guide after sciatic nerve transection in guinea pigs, increased dramatically the number of regenerating nerve fibers within the guide. To identify the target neurons of prosaposin during peripheral nerve regeneration, we determined the degree of atrophy and chromatolysis of neurons in the spinal anterior horn and dorsal root ganglia on the prosaposin-treated and untreated side. The effect of prosaposin on large spinal neurons and small neurons of the dorsal root ganglion was more conspicuous. Subsequent immunohistochemistry demonstrated that the atrophy of cholinergic large neurons in the anterior horn is prevented to significant extent by prosaposin treatment. These findings suggest that prosaposin promotes peripheral nerve regeneration by acting on α-motor neurons in the anterior horn and on small sensory neurons in the dorsal root ganglion. The present study raises the possibility of using prosaposin as a tool for the treatment of peripheral nerve injuries.     

电刺激大鼠外侧缰核对延髓甩尾相关细胞的活动和甩尾反射的影响

在浅麻醉大鼠上,在延髓腹内侧结构内观察到三种具有不同放电类型的细胞,即乃尾前放电骤停的撤反应细胞,甩尾前放电骤增的给反应细胞和甩尾无关的中性细胞。电刺激外侧缰核可抑制撤反应细胞的自发放电,加强给反应细胞自发放电,从而易化两类细胞的甩尾相关反应,同时易化伤害刺激引起的甩尾反射。实验结果说明,外侧缰核对节段性防御反射有易化作用,这种易化作用可能是通过延髓内撤反应和反应细胞的协同活动而实现的。     

Suppression of programmed neuronal death by a thapsigargin-induced Ca2+ influx

Rat sympathetic neurons undergo programmed cell death (PCD) in vitro and in vivo when they are deprived of nerve growth factor (NGF). Chronic depolarization of these neurons in cell culture with elevated concentrations of extracellular potassium ([K⁺]_o) prevents this death. The effect of prolonged depolarization on neuronal survival is thought to be mediated by a rise of intracellular calcium concentration ([Ca²⁺]_i) caused by Ca²⁺ influx through voltage-gated channels. In this report we investigate the effects of chronic treatment of rat sympathetic neurons with thapsigargin, an inhibitor of intracellular Ca²⁺ sequestration. In medium containing a normal concentration of extracellular Ca²⁺ ([Ca²⁺]_o), thapsigargin caused a sustained rise of intracellular Ca²⁺ concentration and partially blocked death of NGF-deprived cells. Elevating [Ca²⁺]_o in the presence of thapsigargin further increased [Ca²⁺]_i, suggesting that the sustained rise of [Ca²⁺]_i was caused by a thapsigargin-induced Ca²⁺ influx. This treatment potentiated the effect of thapsigargin on survival. The dihydropyridine Ca²⁺ channel antagonist, nifedipine, blocked both a sustained elevation of [Ca²⁺]_i and enhanced survival caused by depolarization with elevated [K⁺]_o, suggesting that these effects are mediated by Ca²⁺ influx through L-type channels. Nifedipine did not block the sustained rise of [Ca²⁺]_i or enhanced survival caused by thapsigargin treatment, indicating that these effects were not mediated by influx of Ca²⁺ through L-type channels. These results provide additional evidence that increased [Ca²⁺]_i can suppress neuronal PCD and identify a novel method for chronically raising neuronal [Ca²⁺]_i for investigation of this and other Ca²⁺-dependent phenomena. © 1995 John Wiley & Sons, Inc.     

Differential effects of corticotropin-releasing hormone on central dopaminergic and noradrenergic neurons

Corticotropin-releasing hormone (CRH) has been shown to be a central mediator for most, if not all, stress-induced responses. Since stressful stimuli may decrease hypothalamic tuberoinfundibular and tuberohypophysial dopaminergic neuronal activities, we aimed to determine whether CRH is involved. Using central administration of various doses of ovine CRH (oCRH; 1, 3 and 10 µg/rat) into the lateral cerebroventricle of either male or female rats, the neurochemical changes in various parts of the central nervous system, including the hypothalamus, were determined by high-performance liquid chromatography at various times after the injection (30, 60, 120 and 240 min). The concentrations of 3,4-dihydroxyphenylacetic acid (DOPAC) and 3-methoxy-4-hydroxy-phenylethyleneglycol (MHPG), two major metabolites of dopamine and norepinephrine, respectively, in discrete brain regions were used as indices for catecholaminergic neuron activity. Plasma corticosterone levels increased significantly after all doses of oCRH and at all time points studied. oCRH also exerted significant stimulatory effects on noradrenergic neuron terminals in the frontal cortex, and on dopaminergic neuron terminals in the nucleus accumbens, hypothalamic paraventricular and periventricular nuclei, and intermediate pituitary lobe. Dopaminergic neuron terminals in the median eminence and the neural lobe of the pituitary, however, were not affected. There was no major difference in the responses between male and female rats. We conclude that CRH has a differential effect on central catecholaminergic neurons.