Neurochemical studies on the mesolimbic circuitry of antinociception

Previous studies using the technique of microinjection into brain nuclei indicated that the periaqueductal gray (PAG), nucleus accumbens, habenula and amygdala play an essential role in pain modulation and that these nuclei possibly act through a ‘mesolimbic neural loop‘ to exert an analgesic effect, in which Met-enkephalin (MEK) and β-endorphin (β-EP) have been implicated as the two major opioid peptides involved in antinociception. In the present study performed in rabbits, intracranial microinjection was supplemented with push-pull perfusion and radioimmunoassay to determine whether the release of enkephalins (ENK) and β-EP was increased in these nuclei when the putative neural circuit was activated by morphine administered into one of the nuclei. The results showed: (1) microinjection of morphine into the PAG increased the release of ENK and β-EP in the N. accumbens, and vice versa; (2) microinjection of morphine into the N. accumbens increased the release of ENK and β-EP in the amygdala, and vice versa; (3) morphine microinjected into the PAG caused an increase in the release of ENK and β-EP in the amygdala and vice versa, although the release of ENK in PAG was statistically not significant. These results indicate that PAG, N. accumbens and amygdala are connected in a network served by a positive feedback circuitry.     

Enkephalin mRNA production by cochlear and vestibular efferent neurons in the gerbil brainstem

Summary Preproenkephalin mRNA production by efferent neurons projecting to the gerbil inner ear was assessed using combined in situ hybridization and retrograde labeling with florescent tracers. Virtually all vestibular efferent neurons were positive for preproenkephalin mRNA. Of the cochlear efferents, one-half of the medial olivocochlear neurons were positive for enkephalin. All lateral olivocochlear neurons were negative for enkephalin. The results suggest that there are two, biochemically distinct subpopulations of medial olivocochlear efferents in the gerbil. Offprint requests to: Division of Otolaryngology, ENT, V-112C     

Cardiovascular effects of Leu-enkephalin in the nucleus tractus solitarius of the rat

Microinjections of Leu-enkephalin into the dorsal vagal complex induced hypotension and bradycardia. Both naloxone, given at a dose conferring selectivity for μ receptors, and the S antagonist ICI 154,129 prevented the cardiovascular effects of Leu-enkephalin. Naloxone was also found to decrease the gain of the baroreflex. These results suggest that Leu-enkephalin is involved in cardiovascular regulation through activation of δ-, and possibly μ-, opioid receptors in the dorsal vagal complex.     

Down-regulation of 3H-lofentanil binding to opiate receptors in different cultured neuronal cells

Summary There was stereospecific binding of ³H-lofentanil (K _D value = 1.53 nM) to membranes of neuroblastoma-glioma NG 108-15 cells which are known to bear high affinity binding sites for enkephalin derivatives (-opiate receptor subtype). There was no high affinity specific binding of the -opiate specific ligand ³H-sufentanil. The specific binding of ³H-lofentanil to -opiate receptor subtype was down-regulated (decrease in B _max value without change in the K _D value) after prolonged incubation of the cells in the presence of leu- and met- enkephalin (0.1 M). There was no down-regulation of the opiate receptors (³H-lofentanil and ³H-d-ala-d-leu-enkephalin specific binding) after incubation of NG 108-15 cells with drugs from the fentanyl series (alfentanil or sufentanil).In cultured neurones from rat forebrain (15 day old embryos), the ³H-lofentanil binding was specific with high affinity (K _D: 0.048 nM) and a slow dissociation rate similar to that in adult rat cortex. Drugs of the fentanyl series (4-anilino-piperidines) were potent displacers whereas agonists of the - (enkephalin derivatives), (phencyclidine, haloperidol, 3-hydroxyphenyl-propylpiperidine) or K- (U 50488) opiate sites had a low affinity (K _i > 0.5 M) for ³H-lofentanil specific binding sites. Since there was also specific binding of ³H-sufentanil, the opiate receptors in cultured neurones seem to be mainly of the -subtype and this is consistent with the ontogeny of opiate receptors subtypes. These receptors were down-regulated after incubation in the presence of etorphine, sufentanil and alfentanil but not enkephalin derivatives.These results strongly suggest specific binding of ³H-sufentanil and ³H-lofentanil mainly to the so-called -opiate receptors in cultured neurones and a specific binding of ³H-lofentanil to lower affinity -opiate receptors in neuroblastoma-glioma cells. The down-regulation of the -opiate binding sites in cultured neurones and that of the -site in neuroblastoma × glioma hybrid cells were dose-and temperature-dependent, induced by the corresponding high affinity agonists and prevented by naloxone. Morphine did not induce down-regulation of or receptor sites, possibly because of a partial antagonist effect on both receptor subtypes. Send offprint requests to J. M. Maloteaux at the above address     

脑啡肽与生长抑素在鸡视网膜无长突细胞共存的免疫组织化学研究

本文介绍用免疫组织化学的单标和双标技术研究脑啡肽(ENK)和生长抑素(SOM)在鸡视网膜无长突细胞的定位和共存。单标的实验结果表明,一些SOM免疫反应阳性无长突细胞的形态、胞体在内核层的位置及其突起在内网层的分支式样与某些ENK免疫反应阳性无长突细胞相似,虽然其突起在内网层的第3、4亚层形成的丛网不象ENK免疫反应阳性突起那样丛密,在内网层的第5亚层也未见SOM免疫阳性突起。双标的实验结果表明,一些无长突细胞显示ENK和SOM两种免疫阳性反应,而另一些无长突细胞分别只显示ENK或SOM阳性免疫反应。文中还对视网膜神经多肽间或与经典神经递质的共存进行了讨论。     

Noradrenergic and opioidergic alterations in neuropathy in different rat strains

The Fischer 344 (F344) rat strain differs from the Lewis strain in the response to neuropathic pain. Recently, we found that F344 rats totally recover from mechanical allodynia induced by chronic constriction injury (CCI) of the sciatic nerve 28 days after surgery whereas Lewis rats are initiating their recovery at this time point. Thus, the use of this neuropathic pain model in these different rat strains constitutes a good strategy to identify possible target genes involved in the development of neuropathic pain. Since differences between Lewis and F344 rats in their response to pain stimuli in acute pain models have been related to differences in the endogenous opioid and noradrenergic systems, we aimed to determine the levels of expression of key genes of both systems in the spinal cord and dorsal root ganglia (DRG) of both strains 28 days after CCI surgery. Real time RT-PCR revealed minimal changes in gene expression in the spinal cord after CCI despite the strain considered, but marked changes in DRG were observed. A significant upregulation of prodynorphin gene expression occurred only in injured DRG of F344 rats, the most resistant strain to neuropathic pain. In addition, we found a significant downregulation of tyrosine hydroxylase and proenkephalin gene expression levels in both strains whereas δ-opioid receptor was found to be significantly downregulated only in injured DRG of Lewis rats although the same trend was observed in F344 rats. The data strongly suggest that dynorphins could be involved in strain differences concerning CCI resistance.     

Species differences in the relative analgesic potencies of some classical opiates and opioid peptides

The analgesic ED₅₀ values of some classical morphine congeners (morphine, methadone, fentanyl, azidomorphine) in the rat and mouse tail-flick tests were found to be similar. However, several synthetic derivatives of the natural enkephalins were more potent in mice than in rats. (These analogs contain d-amino acid in position 2 and d- or l-sulfonic (or phosphonic) acid residue in position 5). -Endorpin, d-Met², Pro⁵-enkephalinamide and two partial agonists showed intermediate interspecies relative potencies. According to the data obtained, similar opiate receptors might mediate the analgesic action of classical opiates in rats and in mice. However, the opiate receptors responsible for the antinociceptive effects of the above mentioned enkephalin analogues must be dissimilar in the two species examined. The results are discussed in terms of the role of - and -receptors in mediation of the analgesic effect induced by different types of opioids.     

大鼠延髓内含前-原脑啡肽mRNA、甲硫氨酸-脑啡肽和亮氨酸-脑啡肽神经元的分布

应用原位杂交和免疫组织化学方法,对成年大鼠延髓内含前-原脑啡肽(PPE)mRNA和甲硫氨酸-脑啡肽(M-ENK)与亮氨酸-脑啡肽(L-ENK)免疫反应神经元进行观察。结果表明:含PPEmRNA的神经元胞体,多数分布在孤束核、腹外侧区以及两者之间的网状结构等形成的一条从背内侧到腹外侧区的弧形带内。M-ENK与L-ENK样免疫反应阳性结构(神经元胞体、纤维和终末)也主要密集分布在该带内。本结果对ENK(M-ENK和L-ENK)参与延髓内脏功能活动的调控过程,提供了进一步的形态学证据。     

Glutamatergic regulation of striatal peptide gene expression in rats

Summary The mRNA levels encoding enkephalin and substance P were measured in the rat striatum following cortical ablation, blockade of N-methyl-D-aspartate (NMDA) receptors or inhibition of glutamate release by lamotrigine. Unilateral ablation of the cerebral cortex resulted in a decrease of substance P mRNA levels particularly in the rostral dorsolateral and dorsomedial striatum ipsilateral to the lesion. There was a similar trend for a reduction in levels of enkephalin mRNA. Continuous, intrastriatal infusion of the competitive NMDA receptor antagonist, 3-((±)-2-carboxypiperazin-4-yl)-propyl-1-phosphonic acid, (CPP, 0.12 and 1.2g/day) decreased both enkephalin mRNA and substance P mRNA in dose-dependent manner evenly throughout the striatum adjacent to the infusion site. Following subchronic administration of the presumed glutamate release inhibitor, lamotrigine (5 and 20 mg/kg IP) there was no significant alterations in either enkephalin mRNA or substance P mRNA levels in the striatum. Both enkephalin mRNA and substance P mRNA expression in the rat striatum appear tonically stimulated through postsynaptic NMDA receptor mediated mechanisms. This contrasts with differential dopaminergic modulation of peptides in striatal output neurons.     

d-ala2-methionine-enkephalinamide self-administration in the morphine-dependent rat

The self-administration of d-enkephalin was studied in the dependent rat self-administering morphine. The rats were prepared with chronic IV and bilateral intraventricular (IVT) injection cannulae. They were made physically dependent on morphine and trained to lever press for IV morphine self-injections (inj) (10 mg/kg) on a fixed ratio (20) (FR20) schedule of reinforcement. Substitution of d-enkephalin either IVT. (40 g/inj) or IV (10 mg/kg/inj) in the morphinedependent rat maintained consistent lever pressing and self-administration.behavior similar to morphine self-administration. No signs of abstinence were observed during the d-enkephalin substitution. However, saline substitution (0,05 ml/inj IV) for morphine in the self-administering rat produced an abstinence syndrome characterized by extinction of responding, wet-dog shakes, writhes, and diarrhea, which were reversed for 1 h by a single IVT injection of d-enkephalin (40 or 80 g). These results indicate that d-enkephalin will serve as a reinforcer to maintain opiate-seeking behavior and support physical dependence in the rat.