用阿片受体放射自显影法研究电针对电惊厥的作用

采用大鼠脑切片的阿片受体结合和放射自显影技术,分析了与电惊厥发作有关的脑内结构及其阿片受体在电针抑制惊厥发作时的变化。图象处理和光密度测定的结果表明,反复电惊厥使尾核、海马、缰核和杏仁核内的阿片受体密度增加。而经电针处理后再给予电惊厥,与电惊厥组相比,海马、缰核和杏仁核内的受体密度降低,在尾核亦显示了受体密度降低的趋势。这一结果为这些结构内的阿片受体参与电惊厥发作和针刺制痫的过程提供了形态学方面的证据。     

Receptor autoradiography of mu and delta opioid peptide receptors in spontaneously hypertensive rats.

The receptor autoradiographic distribution of opioid peptide receptors in spontaneously hypertensive rats (SHR) was compared to that of Sprague-Dawley (SD) rats, using the highly selective mu and delta opioid receptor ligands, [3H]DAGO (Tyr-D-Ala-Gly-NMe-Phe-Gly-ol) and [3H]DPDPE ([D-Pen2,D-Pen5]enkephalin), respectively. Although the distribution of these binding sites was similar in both strains, SHR showed significantly higher binding densities of mu receptors in 16 of 27 areas examined. These included the patch and matrix components of the caudate-putamen (CPu), olfactory tubercle, endopiriform nucleus, anterior cingulate cortex, ventral tegmental area lateroposteral thalamic nucleus and the ventral part of the dentate gyrus. In contrast, SHR had lower [3H]DAGO binding sites in the CA1 of the hippocampus. Conversely, SHR showed higher binding densities of delta receptors in 7 of 20 areas examined, including the CPu, CA2 and CA3 areas of the hippocampus and the central grey. High-to-low lateromedial gradients of striatal delta receptors were observed in both strains. Because opioid peptides are known to participate in locomotive behavior in rodents and in the control of blood pressure, the present results support a role of opioid peptidergic systems in the manifestation of hyperactivity and hypertension observed in SHR.     

Autoradiographic Localization of the Putative D4 Dopamine Receptor in Rat Brain

The putative dopamine D4 receptor protein in rat brain was labelled and quantified autoradiographically using two selective benzamides: [³H]YM-09151-2 which labels D2, D3 and D4 dopamine receptors and [³H]Raclopride which labels D2 and D3. The difference in densities of both ligands at saturable concentrations, show a regional distribution for the putative D4 receptor in the following rank order: hippocampus > caudate putamen > olfactory tubercle = substancia nigra > nucleus accumbens core > cerebral cortex > cerebellum. A calculated value of 0.34 pmol/mg protein was attributable to D4 receptor maximum capacity in caudate putamen and was obtained after subtracting the Bmax of the ligands. Our results show that the distribution of D4 receptor only partially overlaps with the D4 mRNA localization reported earlier and is not only associated to limbic structures but to motor areas as well.     

Electroconvulsive shock treatment differentially modulates cortical and subcortical endocannabinoid activity

Previous studies indicate that the endocannabinoid system is a potential target for the treatment of depression. To further examine this question we assessed the effects of electroconvulsive shock (ECS) treatment, both a single session and 10 daily sessions, on endocannabinoid content, CB(1) receptor binding parameters and CB(1) receptor-mediated [(35)S]GTPgammaS binding in the prefrontal cortex, hippocampus, hypothalamus and amygdala. A single ECS session resulted in a general reduction in the binding affinity of the CB(1) receptor in all brain regions examined, as well as reductions in N-arachidonylethanolamine (anandamide) content in the prefrontal cortex and the hippocampus, reduced hydrolysis of anandamide by fatty acid amide hydrolase (FAAH) in the prefrontal cortex and an increase in the binding site density of the CB(1) receptor in the amygdala. Following 10 ECS sessions, all these effects subsided except for the reductions in anandamide content in the prefrontal cortex, which increased in magnitude, as well as the reductions in FAAH activity in the prefrontal cortex. Additionally, repeated ECS treatment resulted in a significant reduction in the binding site density of the CB(1) receptor in the prefrontal cortex, but did not alter CB(1) receptor-mediated [(35)S]GTPgammaS binding. Repeated ECS treatment also significantly enhanced the sensitivity of CB(1) receptor-mediated [(35)S]GTPgammaS binding in the amygdala. Collectively, these data demonstrate that ECS treatment results in a down-regulation of cortical and an up-regulation of subcortical endocannabinoid activity, illustrating the possibility that the role of the endocannabinoid system in affective illness may be both complex and regionally specific.     

Distribution of kappa opioid receptors in the brain of young and old male rats

The experiments to be described have been designed in order to: (a) provide new information on the concentrations of opioid kappa receptors in different regions of the brain of the male rats; and (b) to analyze whether the density of brain kappa receptors might be modified by the process of aging. The concentration of kappa receptors was investigated in the hypothalamus, amygdala, mesencephalon, corpus striatum, hippocampus, thalamus, frontal poles, anterior and posterior cortex collected from male rats of 2 and 19 months of age. 3H-bremazocine (BRZ) was used as the ligand of kappa receptors, after protection of mu and delta receptors respectively with dihydromorphine and d-ala-d-leu-enkephalin. The results obtained show that: (1) in young male rats, the number of kappa opioid receptors is different in the various brain areas examined: the hypothalamus and the striatum have a concentration of kappa binding sites which is significantly higher than that found in the mesencephalon and in the amygdala; much lower concentrations of kappa binding sites have been found in the thalamus, the frontal poles, the hippocampus, the anterior and posterior cerebral cortex. (2) Aging exerts little influence on the number of kappa receptors in the majority of the brain structures considered. However in the amygdala and in the thalamus the number of kappa receptors was increased in old animals. To the authors' knowledge, the data here presented are the first ones which suggest that age may increase rather than decrease the number of neurotransmitter receptors in the brain.     

福尔马林致痛提高大鼠中枢μ阿片受体密度及电针的加强作用

用放射自显影方法观察到;（１）大鼠脚掌注射福尔马林后,某些与镇痛有关的脑区如尾核头部、伏隔核、杏仁核、中央灰质、脚间核、中缝大核、脊髓背角等结构中μ阿片受体密度明显增加（Ｐ＜０．０５,Ｐ＜０．０１）;（２）给予电针抑制痛反应的大鼠,在其大部分上述结构及扣带回、隔区、视前内侧区、内膝体、上丘、中缝背核及中央上核受体密度明显增加;与福尔马林注射组相比,脚间核、中央灰质尾端腹外侧区、腰膨大背角的受体密度进一步增加。从而在受体水平支持伤害性刺激可以激活体内内阿片肽能活动,而电针可以加强这一活动的设想。     

Pharmacological and Regional Characterization of [3H]LY278584 Binding Sites in Human Brain

Abstract: Binding of [³H]LY278584, which has been previously shown to label 5-hydroxytryptamine₃ (5-HT₃) receptors in rat cortex, was studied in human brain. Saturation experiments revealed a homogeneous population of saturable binding sites in amygdala ( K _D= 3.08 ± 0.67 n M, B _max= 11.86 ± 1.87 fmol/mg of protein) as well as in hippocampus, caudate, and putamen. Specific binding was also high in nucleus accumbens and entorhinal cortex. Specific binding was negligible in neocortical areas. Kinetic studies conducted in human hippocampus revealed a K _on of 0.025 ± 0.009 n M ⁻¹ min⁻¹ and a K _off of 0.010 ± 0.002 min⁻¹. The kinetics of [³H]LY278584 binding were similar in the caudate. Pharmacological characterization of [³H]LY278584 specific binding in caudate and amygdala indicated the compound was binding to 5-HT₃ receptors. We conclude that 5-HT₃ receptors labeled by [³H]LY278584 are present in both limbic and striatal areas in human brain, suggesting that 5-HT₃ receptor antagonists may be able to influence the dopamine system in humans, similarly to their effects in rodent studies.     

Sex differences in oxytocin receptor binding in forebrain regions: Correlations with social interest in brain region- and sex- specific ways

Social interest reflects the motivation to approach a conspecific for the assessment of social cues and is measured in rats by the amount of time spent investigating conspecifics. Virgin female rats show lower social interest towards unfamiliar juvenile conspecifics than virgin male rats. We hypothesized that the neuropeptide oxytocin (OT) may modulate sex differences in social interest because of the involvement of OT in pro-social behaviors. We determined whether there are sex differences in OT system parameters in the brain and whether these parameters would correlate with social interest. We also determined whether estrus phase or maternal experience would alter low social interest and whether this would correlate with changes in OT system parameters. Our results show that regardless of estrus phase, females have significantly lower OT receptor (OTR) binding densities than males in the majority of forebrain regions analyzed, including the nucleus accumbens, caudate putamen, lateral septum, bed nucleus of the stria terminalis, medial amygdala, and ventromedial hypothalamus. Interestingly, male social interest correlated positively with OTR binding densities in the medial amygdala, while female social interest correlated negatively with OTR binding densities in the central amygdala. Proestrus/estrus females showed similar social interest to non-estrus females despite increased OTR binding densities in several forebrain areas. Maternal experience had no immediate or long-lasting effects on social interest or OT brain parameters except for higher OTR binding in the medial amygdala in primiparous females. Together, these findings demonstrate that there are robust sex differences in OTR binding densities in multiple forebrain regions of rats and that OTR binding densities correlate with social interest in brain region- and sex-specific ways.     

Regulation of the rat brain endothelin system by endogenous beta-endorphin

Several lines of evidence indicate that the central endogenous opioid and endothelin (ET) system regulate each other. To explore this idea further, we determined the effect of intracerebroventricular (i.c.v.) administration of anti-beta-endorphin IgG (rabbit) on the expression level of the opioid, corticotropin-releasing hormone and endothelin receptors, and tissue concentration of ET-1. Three days after implanting cannula into the lateral ventricle, male Sprague-Dawley rats were administered 10 microl (i.c.v.) of either control rabbit IgG (2.5 microg/microl) or anti-beta-endorphin IgG (2.5 microg/microl) on days 1, 3 and 5. On day 6, animals were euthanized and caudate, cortex and hippocampus collected for Western blot analysis. Anti-beta-endorphin IgG down-regulated ET-A receptor protein expression in the caudate (51%), but had no effect on the expression of mu, delta, kappa opioid, ET-B, CRH-1 and CRH-2 receptors in any brain region. Anti-beta-endorphin IgG increased tissue ET-1 levels in the caudate by 30.3%. [35S]GTP-gamma-S binding assays demonstrated that anti-beta-endorphin IgG increased the efficacy of [D-Ala2-MePhe4, Gly-ol5]enkephalin without altering its potency in caudate. Control experiments showed that there was no detectable rabbit IgG in caudate, cortex and hippocampus samples. These results suggest that beta-endorphin in the CSF coordinately regulates ET-1 levels and the ET-A receptor in rat caudate. These findings support the hypothesis that CSF neuropeptides have regulatory effects and further demonstrate a link between opioid and ET system.     

Altered Muscarinic and Nicotinic Receptor Densities in Cortical and Subcortical Brain Regions in Parkinson's Disease

Abstract: Muscarinic and nicotinic cholinergic receptors and choline acetyltransferase activity were studied in postmortem brain tissue from patients with histopathologically confirmed Parkinson's disease and matched control subjects. Using washed membrane homogenates from the frontal cortex, hippocampus, caudate nucleus, and putamen, saturation analysis of specific receptor binding was performed for the total number of muscarinic receptors with [³H]quinuclidinyl benzilate, for muscarinic M₁ receptors with [³H]pirenzepine, for muscarinic M₂ receptors with [³H]oxotremorine-M, and for nicotinic receptors with (–)-[³H]nicotine. In comparison with control tissues, choline acetyltransferase activity was reduced in the frontal cortex and hippocampus and unchanged in the caudate nucleus and putamen of parkinsonian patients. In Parkinson's disease the maximal binding site density for [³H]quinuclidinyl benzilate was increased in the frontal cortex and unaltered in the hippocampus, caudate nucleus, and putamen. Specific [³H]pirenzepine binding was increased in the frontal cortex, unaltered in the hippocampus, and decreased in the caudate nucleus and putamen. In parkinsonian patients B_max values for specific [³H]oxotremorine-M binding were reduced in the cortex and unchanged in the hippocampus and striatum compared with controls. Maximal (–)-[³H]nicotine binding was reduced in both the cortex and hippocampus and unaltered in both the caudate nucleus and putamen. Alterations of the equilibrium dissociation constant were not observed for any ligand in any of the brain areas examined. The present results suggest that both the innominatocortical and the septohippocampal cholinergic systems degenerate in Parkinson's disease. The reduction of cortical [³H]oxotremorine-M and (–)-[³H]nicotine binding is compatible with the concept that significant numbers of the binding sites labelled by these ligands are located on presynaptic cholinergic nerve terminals, whereas the increased [³H]pirenzepine binding in the cortex may reflect postsynaptic denervation supersensitivity.     

尾核阿片μ受体参与电针及皮层SmⅠ区对束旁核伤害性反应的抑制

为探索尾核（ｃａｕｄａｔｅｎｕｃｌｅｕｓ,Ｃｄ）是否参与电针及皮层体感运动Ⅰ区（ｓｅｎｓｏｒｉｍｏｔｏｒａｒｅａⅠｏｆｔｈｅｃｅｒｅｂｒａｌｃｏｒｔｅｘ,ＳｍⅠ）对束旁核（ｐａｒａｆａｓｃｉｃｕｌａｒｎｕｃｌｅｕｓ,Ｐｆ）神经元伤害性反应的调节,以及Ｃｄ中阿片受体是否参与并通过何种受体参与这一调节,本实验用Ｃｄ头部化学毁损及微量注射阿片受体拮抗剂的方法,观察到Ｃｄ毁损前电针及兴奋皮层均可抑制Ｐｆ的伤害性反应,而毁损后这种抑制效应消失;注射纳洛酮或阿片μ受体拮抗剂βＦＮＡ后,电针及兴奋皮层ＳｍⅠ区对Ｐｆ伤害性反应的抑制作用被取消,而分别注射δ和κ受体拮抗剂ＩＣＩ１７４,８６４和ｎｏｒＢＮＩ则不产生影响。基于已证明大脑皮层参与电针对Ｐｆ伤害性反应的调节,本结果提示：Ｃｄ参与针刺镇痛中皮层ＳｍⅠ区对Ｐｆ神经元伤害性反应的抑制,Ｃｄ中阿片肽主要通过μ受体参与抑制作用。     

Neonatal Administration of Thimerosal Causes Persistent Changes in Mu Opioid Receptors in the Rat Brain

Thimerosal added to some pediatric vaccines is suspected in pathogenesis of several neurodevelopmental disorders. Our previous study showed that thimerosal administered to suckling rats causes persistent, endogenous opioid-mediated hypoalgesia. Here we examined, using immunohistochemical staining technique, the density of μ-opioid receptors (MORs) in the brains of rats, which in the second postnatal week received four i.m. injections of thimerosal at doses 12, 240, 1,440 or 3,000 μg Hg/kg. The periaqueductal gray, caudate putamen and hippocampus were examined. Thimerosal administration caused dose-dependent statistically significant increase in MOR densities in the periaqueductal gray and caudate putamen, but decrease in the dentate gyrus, where it was accompanied by the presence of degenerating neurons and loss of synaptic vesicle marker (synaptophysin). These data document that exposure to thimerosal during early postnatal life produces lasting alterations in the densities of brain opioid receptors along with other neuropathological changes, which may disturb brain development.     

阿片受体在大鼠丘脑中央下核和顶盖前区前核介导电针镇痛中的不同作用

本文旨在研究阿片受体是否参与丘脑中央下核(nucleus submedius,Sm)和顶盖前区前核(anterior pretectal nucleus,APtN)所介导的不同强度电针的镇痛作用。以辐射热诱发甩尾(tail flick,TF)反射潜伏期为伤害性反应的指标,观察了Sm和APtN微量注射阿片受体拮抗剂纳洛酮对不同强度电针“足三里”穴(St．36)抑制大鼠TF反射的效应。结果表明,Sm给予纳洛酮(1．0μg,0．5μl)阻断强电针(5mA)对TF反射的抑制效应,而对弱电针(0．5mA)的效应无明显影响;相反,APtN给予纳洛酮阻断弱电针对TF反射的抑制效应,而对强电针的效应无明显影响;纳洛酮供给到Sm或APtN邻近其它脑区对强、弱电针的效应均无影响。这些结果提示,Sm内的阿片受体参与介导强电针兴奋细传入纤维(A-δ和C类)产生的镇痛,而APtN内的阿片受体则介导弱电针兴奋粗传入纤维(A-β类)产生的镇痛。     

DHA prevents altered 5-HT1A, 5-HT2A,CB1 and GABAA receptor binding densities in the brain of male rats fed a high-saturated-fat diet

Low levels of docosahexaenoic acid (DHA) have been linked to a number of mental illnesses such as memory loss, depression and schizophrenia. While supplementation of DHA is beneficial in improving memory and cognition, the influence of dietary fats on the neurotransmitters and receptors involved in cognitive function is still not known. The aim of this study was to investigate serotonin receptor (5-HT_1A and 5-HT_2A), cannabinoid receptor (CB1) and gamma-aminobutyric acid type A (GABA_A) receptor binding densities in the brain of male rats fed a high-saturated-fat (HF) diet, as well as the effect of DHA supplementation on HF diet. Alterations of these receptors in the post-mortem rat brain were detected by [³H]-WAY-100635, [³H]-ketanserin, [³H]-CP-55,940 and [³H]-muscimol binding autoradiography, respectively. In the hippocampus, the 5-HT_1A, CB1 and GABA_A receptor binding densities significantly increased in response to an HF diet, while in the hypothalamus, 5-HT_1A and CB1 binding densities significantly increased in HF-fed rats. Importantly, DHA supplementation prevented the HF-induced increase of receptors binding density in the hippocampus and hypothalamus. Furthermore, DHA supplementation attenuated 5-HT_2A receptor binding density in the caudate putamen, anterior cingulate cortex and medial mammillary nucleus, which was also increased in HF group. This study showed that an HF diet increased 5-HT_1A, 5-HT_2A, CB1 and GABA_A receptor binding densities in the brain regions involved in cognitive function and that dietary DHA can attenuate such alterations. These findings provide insight into the mechanism by which DHA supplementation ameliorates reduced cognitive function associated with an HF diet.     

Affective modulation of multiple memory systems

The hippocampus and caudate nucleus are anatomical components of relatively independent memory systems and recent research has focused on the nature of the interaction between these two systems. The amygdala exerts a general modulatory influence on memory storage processes related, in part, to an organism's level of affective or emotional arousal. Moreover, affective state can influence the use of different memory systems, and the amygdala may mediate this effect of emotion on memory. Recent evidence indicates that the amygdala modulates the separate types of memory mediated by the hippocampus and caudate nucleus. Recent human brain imaging studies also point to both sex- and hemisphere-related asymmetries in amygdala participation in emotionally influenced memory.     

Higher density of serotonin-1A receptors in the hippocampus and cerebral cortex of alcohol-preferring P rats

Saturable [3H]-8OHDPAT binding to 5HT-1A receptors in membranes prepared from hippocampus and frontal cerebral cortex of alcohol-preferring P rats and of alcohol-nonpreferring NP rats has been compared. The Bmax values or densities of recognition sites for 5HT-1A receptors in both brain areas of the P rats are 39 and 131 percent, respectively, higher than those in the NP rats. The corresponding KD values are 38 and 44 percent lower in the P rats than in the NP rats, indicating higher affinities of the recognition sites for the 5HT-1A receptors in hippocampus and cerebral cortex of the P rats. These findings indicate either an enrichment of 5HT-1A receptor density during selective breeding for alcohol preference or an upregulation of 5HT-1A receptors developed as an adaptation to lower presynaptic concentrations of 5HT found in these brain areas of P rats as compared with the NP rats.     

Cloning, Characterization, and Distribution of a μ-Opioid Receptor in Rat Brain

Abstract: We report the isolation and characterization of a rat cDNA clone encoding a μ-opioid receptor. This receptor, a 398 amino acid protein, shares 59% overall identity with the mouse Δ-and K -opioid receptors. Transient expression of the receptor in COS cells revealed high-affinity binding of μ-selective opioid antagonists and agonists, with a K _D for naloxone ∼1.5 n M , and for [D-Ala², N -Me-Phe⁴, Gly⁵-ol]-enkephalin (DAMGO) and morphine at the high-affinity site of 2–4 n M , confirming a μ-opioid pharmacological profile. Northern blotting and in situ hybridization histoohemistry revealed that the μ-opioid receptor mRNA was expressed in many brain regions, including cerebral cortex, caudate putamen, nucleus accumbens, olfactory tubercle, septal nuclei, thalamus, hippocampus, and medial habenular nucleus, in keeping with the known distribution of the μ-opioid receptor.     

Effects of Single and Repeated Electroconvulsive Shock Administration on Inositol Phosphate Accumulation in Rat Brain Slices

Accumulation of inositol-1-phosphate after labeling with [3H]inositol and stimulation with noradrenaline, carbachol, and serotonin was measured in rat cortical, caudate nucleus, and hippocampal slices. The response to noradrenaline was significantly increased in cortical slices from animals that had received either a single electroconvulsive shock (ECS) or a series of 10 daily ECS but was unchanged in caudate nucleus or hippocampal slices. The response to carbachol, a muscarinic cholinergic agonist, was unchanged in cortical or caudate nucleus slices but was significantly reduced in hippocampal slices from animals that had received chronic ECS. The response to serotonin in cortical slices was not affected by the treatment. The results are correlated with changes in receptor number, which have been demonstrated to occur after administration of ECS.