Attractive and permissive activities of semaphorin 5A toward dorsal root ganglion axons in higher vertebrate embryos

Elongation of the efferent fibers of dorsal root ganglion (DRG) neurons toward their peripheral targets occurs during development. Attractive or permissive systems may be involved in this elongation. However, the molecular mechanisms that control it are largely unknown. Here we show that class 5 semaphorin Sema5A had attractive/permissive effects on DRG axons. In mouse embryos, Sema5A was expressed in and around the path of DRG efferent fibers, and cell aggregates secreting Sema5A attracted DRG axons in vitro. We also found that ectopic Sema5A expression in the spinal cord attracted DRG axons. Together, these findings suggest that Sema5A functions as an attractant to elongate DRG fibers and contributes to the formation of the early sensory network.     

藜芦碱致使大鼠背根神经节A类神经元产生触发性振荡

在大鼠L5背根节浸浴钠通道失活门阻断剂藜芦碱（veratridine),记录该背根节神经元A类单纤维传入放电。发现：浸浴藜芦碱（1．8－3μmol/L）10min后,触压皮肤感受野或刺激坐骨神经引起部分静息纤维产生高频放电,其放电峰峰间期（interspike interval,ISI)形成U字形等型式的振荡,称之为触发性振荡。刺激脉冲的间隔越大,触发该振荡所需要的刺激脉冲数也就越多;不同时程和形式的刺激引起触发性振荡的形式无明显差异;触发性振荡的后抑制时期一般为30－90s。另外,实验还观察到该触发性振荡可由同一神经刺激引起的传入冲动触发。上述结果表明,用黎芦碱处理可使初级感觉神经元产生一种触发性振荡,该振荡机制可能与触发病的发作有关。     

Okadaic acid reversibly inhibits neurite outgrowth in embryonic dorsal root ganglion neurons

The aim of this study was to assess the effects of low concentrations of okadaic acid (OA) on neurite outgrowth and cellular integrity in cultures of dissociated dorsal root ganglion (DRG) neurons. The complete and fully reversible arrest of neurite outgrowth was achieved at 1 nM OA, thus ruling out the involvement of protein phosphatase 1 in the observed inhibitory effect. OA at 0.5 nM did not completely block neurite outgrowth, although it reduced the rate of growth by about one third. Protein phosphorylation and the integrity of microtubules and neurofilaments in neuron-enriched cultures were unaffected by 1 nM OA. The rate of synthesis of the low-molecular-weight neurofilament subunit (NFL) was also unchanged by OA treatment. Antimitotic agents used to eliminate proliferating cells did not alter the rate of neurite elongation. Since 1 nM OA does not suffice to inhibit neuronal protein phosphatase 2A fully, owing to the high concentration of this enzyme in neurons, we propose that the inhibitor is affecting a neuronal compartment that contains low levels of the phosphatase. This putative compartment is likely to be located in neurites, which were shown to contain levels of protein phosphatase 2A that were two- to threefold lower than in neuronal perikarya. © 1997 John Wiley & Sons, Inc. J Neurobiol 32: 193–201, 1997.     

缓激肽对背根节神经元钠通道电流的作用

目的：观察缓激肽(bradykinin,BK)对大鼠背根节神经元电压依赖性钠通道电流的作用。方法：采用全细胞膜片钳技术,记录钠通道电流。结果：缓激肽剂量依赖性(0．01～10μmol／L)增高小细胞背根节神经元诱发放电频率;缓激肽剂量依赖性(O．01～10μmol／L)增加小细胞背根节神经元的河豚毒素不敏感(TTX—resistant,TTX—R)钠电流,对TTX敏感(TTX—sensitive,TTX-S)钠电流无明显影响。结论：缓激肽引起炎性痛的机制可能与TTX-R钠通道电流有关。     

一种适合膜片钳单通道记录的大鼠DRG神经元急性分离方法

目的：建立一种适合膜片钳单通道记录的脊髓背根神经节神经元急性分离方法。方法：用酶消化和机械分离相结合的方法急性分离大鼠DRG神经元。结果：用本方法分离的DRG细胞容易形成较高的封接电阻（〉5GΩ）,降低了噪音干扰,可记录到pA级的单通道电流。结论：本方法急性分离的DRG神经元适合单通道膜片钳实验研究。     

Segmental independence and age dependence of neurite outgrowth from embryonic chick sensory neurons

Targets in limb regions of the chick embryo are further removed from the dorsal root ganglia that innervate them compared with thoracic ganglion-to-target distances. It has been inferred that axons grow into the limb regions two to three times faster than into nonlimb regions. We tested whether the differences were due to intrinsic properties of the neurons located at different segmental levels. Dorsal root ganglia (DRG) were isolated from the forelimb, trunk, and hind limb regions of stage 25–30 embryos. Neurite outgrowth was measured in dissociated cell culture and in cultures of DRG explants. Although there was considerable variability in the amount of neurite outgrowth, there were no substantive differences in the amount or the rate of outgrowth comparing brachial, thoracic, or lumbosacral neurons. The amount of neurite outgrowth in dissociated cell cultures increased with the stage of development. Overall, our data suggest that DRG neurons express a basal amount of outgrowth, which is initially independent of target-derived neurotrophic influences; the magnitude of this intrinsic growth potential increases with stage of development; and the neurons of the DRG are not intrinsically specified to grow neurites at rates that are matched to the distance they are required to grow to make contact with their peripheral targets in vivo. We present a speculative model based on Poisson statistics, which attempts to account for the variability in the amount of neurite outgrowth from dissociated neurons. © 1995 John Wiley & Sons, Inc.     

藜芦碱和乌头碱在受损背根节神经元诱发不同的放电模式

为了研究钠通道失活门阻断后受损背根节神经元放电模式的变化特征,在大鼠背根节慢性压迫模型上采用单纤维技术记录A类神经元的自发放电。藜芦碱和乌头碱是钠通道失活门的抑制剂,但二者作用于不同的位点,前者结合于D2-S6,后者结合于D3-S6。我们比较了这两种试剂引发的放电模式。结果发现,在同一神经元,藜芦碱(1．5～5．0μmol／L)可以引起放电峰峰间期的慢波振荡,即峰峰间期由大逐渐减小,然后又逐渐增大,形成重复的振荡波形,每个振荡持续约数十秒至数分钟：而乌头碱(10～200μmol／L)则引起强直性放电,即峰峰间期逐渐减小,然后维持在一个稳定的水平。这两种不同的放电模式不因背景放电或试剂浓度的不同而发生明显的改变。实验结果表明,藜芦碱和乌头碱在受损的背根节神经元可以引发不同的放电模式,这可能与它们结合于钠通道上不同位点的抑制作用有关。     

Synaptic connections in a dissociated mixed culture of rat dorsal root ganglion and spinal cord neurons

Postsynaptic currents and action potentials recorded from neurons in a mixed culture of rat dorsal root ganglion and spinal cord cells are described. The existence of mutual synaptic connections between the above two types of neurons is demonstrated. Neirofiziologiya/Neurophysiology, Vol. 38, No. 4, pp. 358–360, July–August, 2006.     

血管升压素对大鼠背根神经节神经元膜的作用

为研究血管升压素(arginine vasopressin,AVP)对大鼠背根神经节(dorsal root ganglion,DRG)神经元的作用及其机制,用细胞内微电极记录技术记录离体灌流DRG神经元的膜电位。结果如下:(1)在受检的120个细胞中,大多数(81.67％)在滴加AVP后产生明显的超极化反应。(2)滴加AVP(10μmol/L)后膜电导增加约19.34％(P<0.05)。(3)灌流平衡液巾的NaCl以氯化胆碱(CH-Cl)置代和用Cd2+阻断Ca2+通道后,AVP引起超极化反应的幅值均无明显变化(P>0.05),而加入K+通道阻断剂四乙铵(TEA)后,AVP引起的超极化反应幅值明显减小(P<0.05)。(4)AVP引起的超极化反应可被AVP V.受体拈抗剂阻断。结果捉示,AVP可使DRG大多数神经元膜产生超极化,DRG神经元膜上存在AVP V,受体,且AVP引起的超极化反应是通过神经元膜上AVP V.受体介导的K+外流所致.AVP可能参与了初级感觉信息传入的调制。     

咖啡因对大鼠背根神经节急性分离神经元GABA-激活电流的抑制作用

应用全细胞膜片钳记录技术,在大鼠新鲜分离背根神经节(dorsal root ganglion,DRG)神经元上,观察预加咖啡因对GABA-激活电流(IGABA)的调制作用。实验中,大部分受检细胞(97．4％,l13／116)对外加GABA敏感。1-1000μmol／L GABA引起一剂量依赖性、有明显上敏感作用的内向电流。在受检的108个DRG细胞中,约有半数(53．7％,58／108)对胞外加咖啡因(0．1-100μmol／L)敏感．产生一幅值很小的内向电流。倾加咖啡因(0．1～100μmol／L)30s后再加GABA能明显抑制GABA(100μmol／L)激活电流的幅值。预加咖啡因后GABA量效曲线明显下移;GABA-激活电流的最人值较之对照下降约57％;而Kd值(30μmol／L)几乎不变,表示此种抑制为非竞争性的。预加安定(diazepam,1μmol／L)对GABA(100μmol／L)激活电流有增强作用,而预加咖啡因(10μmol／L)有拈抗安定增强IGABA的作用。胞内透析H-8后,几乎可以完全消除咖啡因对,IGABA的抑制作用。已知GABA作用于初级感觉神经元能引起初级传入去极化,因而实验结果提示,咖啡因有可能在初级传入末梢产生对抗突触前抑制的效应。     

Semaphorin 3E/collapsin-5 inhibits growing retinal axons

During development, the formation of neural networks is reflected by the oriented extension of neurites. Using retinal ganglion cells (RGCs) as a model, we identified the yet uncharacterized chick semaphorin Sema3E/collapsin-5 as a repulsive cue for outgrowing axons. Sema3E/collapsin-5 was highly regulated during retinal histogenesis, with peak expression during the period of intraretinal axon growth. Polymerase chain reaction analysis demonstrated Sema3E/collapsin-5 mRNA in retina layers, from which RGC axons are excluded. Neither isolated RGCs nor purified retinal Müller glia cells synthesized Sema3E/collapsin-5. Sema3E/collapsin-5 receptor sites were visualized by alkaline phosphatase fusion proteins in the axon-rich optic fiber layer. Time-lapse video recording of chick in vitro cultures revealed a growth cone collapsing activity of recombinant Sema3E/collapsin-5. This effect was specific for RGCs, since dorsal root ganglia (DRG) neurons of the peripheral nervous system were not affected. Comparison with Sema3A/collapsin-1 displayed a reciprocal specificity, because Sema3A/collapsin-1 hampered exclusively DRG but not RGC growth cones. The collapsing effect was mediated by low cGMP levels, but not cAMP, as revealed by a set of agonists. In summary, the data suggest a possible role of chick Sema3E/collapsin-5 in restricting growth of retinal ganglion cell axons to the optic fiber layer.     

Mechanisms of axon guidance: membrane dynamics and axonal transport in semaphorin signalling

The intricate geometry of neuronal networks poses many unique cell-biological problems regarding the way a growing axon responds to its environment. Several groups of ligand-receptor pairs have been identified to regulate such processes. In this study, we take class 3 semaphorins as an example and review what is known about the intracellular movements of semaphorins throughout neuronal cells, transport support structures and location of release sites. We discuss how their receptor trafficking may contribute to regulate membrane dynamics underlying growth cone motility and the physiological contribution made by class 3 semaphorins-induced acceleration of axoplasmic transport on neurite development.     

神经病理痛大鼠DRG神经元GABAA受体激活电流的变化

目的：观察坐骨神经慢性压榨损伤（CCI）致神经病理痛后,大鼠背根节神经元GABAA受体（γ-氨基丁酸A受体）激活电流的变化。方法：运用全细胞膜片钳技术记录CCI模型手术侧、手术对侧及假手术组大鼠背根神经节细胞GABAx受体激活电流,比较坐骨神经慢性压榨损伤后GABAA受体激活电流的变化。结果：①CCI模型组大鼠手术侧DRG神经元在不同浓度（0．1-1000μmol／L）GABAA受体激活电流幅值均显著小于假手术组。②CCI模型组大鼠手术对侧DRG神经元在不同浓度（0．01-1000μmol／L）GABAA受体激活电流幅值均显著大于手术同侧及假手术组。结论：在坐骨神经慢性压榨损伤的过程中,不仅损伤侧的DRG神经元GABAA受体激活电流显著减小,这种损伤同时还引起了手术对侧的DRG神经元GABA激活电流代偿性的增强,GABAA受体功能的改变导致的突触前抑制作用的减弱可能是神经病理痛产生的根本原因之一。     

Chronic pregabalin inhibits synaptic transmission between rat dorsal root ganglion and dorsal horn neurons in culture

In this study, we have examined the properties of synaptic transmission between dorsal root ganglion (DRG) and dorsal horn (DH) neurons, placed in co-culture. We also examined the effect of the anti-hyperalgesic gabapentinoid drug pregabalin (PGB) at this pharmacologically relevant synapse. The main method used was electrophysiological recording of excitatory post synaptic currents (EPSCs) in DH neurons. Synaptic transmission between DRG and DH neurons was stimulated by capsaicin, which activates transient receptor potential vanilloid-1 (TRPV1) receptors on small diameter DRG neurons. Capsaicin (1 μM) application increased the frequency of EPSCs recorded in DH neurons in DRG-DH co-cultures, by about 3-fold, but had no effect on other measured properties of the EPSCs. There was also no effect of capsaicin in the absence of co-cultured DRGs. Application of PGB (100 μM) for 40–48 h caused a reduction in the capsaicin-induced increase in EPSC frequency by 57%. In contrast, brief preincubation of PGB had no significant effect on the capsaicin-induced increase in EPSC frequency. In conclusion, this study shows that PGB applied for 40–48 h, but not acute application inhibits excitatory synaptic transmission at DRG-DH synapses, in response to nociceptive stimulation, most likely by a presynaptic effect on neurotransmitter release from DRG presynaptic terminals.     

Acetylcholine synthesis by choline acetyltransferase of a peripheral type as demonstrated in adult rat dorsal root ganglion

pChAT is a splice variant of a peripheral type encoded alternatively by the gene for choline acetyltransferase of the common type (cChAT), the enzyme responsible for acetylcholine synthesis. Immunohistochemistry using pChAT antiserum has successfully visualized many known peripheral cholinergic cells, whereas most cChAT antibodies failed to do so. As, however, accumulating evidence indicates that pChAT expression also occurs in various non-cholinergic neurons, we examined possible acetylcholine production by pChAT in rat dorsal root ganglion as a model. The present study indicated that the ganglion neurons possessed pChAT, but never cChAT, mRNA and protein. Our detailed analysis further showed that, despite low enzyme activities of both choline acetyltransferase and acetylcholinesterase, the level of acetylcholine in the ganglion was as high as to that in various brain regions receiving cholinergic innervation. By using immunoprecipitation methods, we here provide evidence that pChAT definitely has enzyme activity enough to supply physiological concentrations of acetylcholine in the ganglion. We propose that pChAT contributes both to acetylcholine neurotransmission in physiologically identified cholinergic cells and to functions yet unknown in non-cholinergic neurons. Thus pChAT provides a new window on the role of neuronal acetylcholine.     

The cross channel activities of spider neurotoxin huwentoxin-I on rat dorsal root ganglion neurons

In this paper, we investigated the action of huwentoxin-I (HWTX-I) purified from the venom of the Chinese bird spider Ornithoctonus huwena on Ca(2+), Na(+) channels of adult rat dorsal root ganglion (DRG) neurons. The results showed that huwentoxin-I could reduce the peak currents of N-type Ca(2+) channels (IC(50) approximately 100 nM) and TTX-S Na(+) channels (IC(50) approximately 55 nM), whereas no effect was detected on TTX-R Na(+) channels. The comparative studies indicated that the selectivity of HWTX-I on Ca(2+) channels was higher that of MVIIA and approximately the same as that of GVIA. HWTX-I is the first discovered toxin with the cross channel activities from the spider O. huwena venom similar to micro O-conotoxins MrVIA and MrVIB.     

Human microvascular endothelial cell promotes the development of dorsal root ganglion neurons via BDNF pathway in a co-culture system

Our previous study found that co-culture with human vascular endothelial cells (HMVECs) is beneficial for dorsal root ganglion cells (DRGCs). The goal of the present study is to investigate whether co-culture with HMVECs could promote the development of DRGCs, and whether this effect is induced by the secretion of BDNF by HMVECs. DRGCs were mono-cultured, co-cultured with HMVECs or co-cultured with HMVECs that pre-transfected with BDNF siRNA, the expression of neurite formation and branching factors were determined. The results showed that transfecting with BDNF siRNA inhibited BDNF expression and reduced BDNF secretion. Co-culture with HMVECs increased the expression of Etv4, Etv5, FN-L, FN-M, and GAP-43 in DRGCs that accompanied by the activation of ERK pathway. However, these changes were all reversed by the inhibition of BDNF in HMVECs. In conclusion, our data demonstrate that HMVECs potentiated DRGCs development at least partly by the secretion of BDNF in the co-culture system.     

Involvement of hyperpolarization-activated, cyclic nucleotide-gated cation channels in dorsal root ganglion in neuropathic pain

Dorsal root ganglion(DRG)neurons have peripheral terminals in skin,muscle,and other peripheral tissues,andcentral terminals     

Chronic pregabalin inhibits synaptic transmission between rat dorsal root ganglion and dorsal horn neurons in culture

In this study, we have examined the properties of synaptic transmission between dorsal root ganglion (DRG) and dorsal horn (DH) neurons, placed in co-culture. We also examined the effect of the anti-hyperalgesic gabapentinoid drug pregabalin (PGB) at this pharmacologically relevant synapse. The main method used was electrophysiological recording of excitatory post synaptic currents (EPSCs) in DH neurons. Synaptic transmission between DRG and DH neurons was stimulated by capsaicin, which activates transient receptor potential vanilloid-1 (TRPV1) receptors on small diameter DRG neurons. Capsaicin (1 μM) application increased the frequency of EPSCs recorded in DH neurons in DRG-DH co-cultures, by about 3-fold, but had no effect on other measured properties of the EPSCs. There was also no effect of capsaicin in the absence of co-cultured DRGs. Application of PGB (100 μM) for 40-48 h caused a reduction in the capsaicin-induced increase in EPSC frequency by 57%. In contrast, brief preincubation of PGB had no significant effect on the capsaicin-induced increase in EPSC frequency. In conclusion, this study shows that PGB applied for 40-48 h, but not acute application inhibits excitatory synaptic transmission at DRG-DH synapses, in response to nociceptive stimulation, most likely by a presynaptic effect on neurotransmitter release from DRG presynaptic terminals.