High and low frequency electroacupuncture analgesia are mediated by different types of opioid receptors at spinal level: a cross tolerance study

Previous studies have shown that rats subjected to low or high frequency electroacupuncture (EA) stimulation release enkephalins or dynorphins respectively to produce analgesia. This conclusion was tested in the present study by using cross tolerance technique for further analysing their receptor mechanisms. The main results were as follows: (1) In rats subjected to 2 Hz EA for 6 h, there was a gradual decrease in the analgesic effect, leading to a state of tolerance to 2 Hz EA analgesia. These rats, however, still responded to 100 Hz EA. Likewise, rats made tolerant to 100 Hz EA were still effective to 2 Hz EA stimulation, showing not significant cross tolerance between 2 Hz and 100 Hz EA analgesia. (2) Rats made-tolerant to 100 Hz EA analgesia showed a diminished response to intrathecal dynorphin A (1-13), a kappa agonist, whereas the analgesic effect of the delta agonist [D-Pen2, D-pen5] enkephalin (DPDPE) remained intact. (3) Rats made tolerant to 2 Hz EA analgesia showed a cross tolerance to DPDPE, but not to dynorphin A (1-13). Results obtained from aforementioned cross tolerance studies suggest that 2 Hz and 100 Hz EA analgesia are mediated by delta and kappa opioid receptors, respectively, at the spinal cord of the rat.     

Physico-chemical study of the heterogeneous population of opioid receptors

A physico-chemical analysis of the heterogenous population of opioid receptors was carried out. A new difference approach to the analysis of heterogenous receptor systems was developed. This procedure permits to estimate even in high stringency conditions of parameters of three or more types of receptors from the binding isotherms or competitive replacement curves as well as to determine the total receptor concentration in the system. A DELTA computer program based on this difference approach has been developed. The experimental results obtained through the use of the difference technique led to a kinetic model of interaction between morphine and D-Ala2, D-Leu5-enkephalin with rat brain receptors. This model based on the interaction of each ligand with three types of specific binding sites can be used for the determination of kinetic and thermodynamic parameters.     

Oligomerization of opioid receptors

Opioid receptors belong to the family of G-protein-coupled receptors characterized by their seven transmembrane domains. The activation of these receptors by agonists such as morphine and endogenous opioid peptides leads to the activation of inhibitory G-proteins followed by a decrease in the levels of intracellular cAMP. Opioid receptor activation is also associated with the opening of K(+) channels and the inhibition of Ca(2+) channels. A number of investigations, prior to the development of opioid receptor cDNAs, suggested that opioid receptor types interacted with each other. Early pharmacological studies provided evidence for the probable interaction between opioid receptors. More recent studies using receptor selective antagonists, antisense oligonucleotides, or animals lacking opioid receptors further suggested that interactions between opioid receptor types could modulate their activity. We examined opioid receptor interactions using biochemical, biophysical, and pharmacological techniques. We used differential epitope tagging and selective immunoisolation of receptor complexes to demonstrate homotypic and heterotypic interactions between opioid receptor types. We also used the proximity-based bioluminescence resonance energy transfer assay to explore opioid receptor-receptor interactions in living cells. In this article we describe the biochemical and biophysical methods involved in the detection of receptor dimers. We also address some of the concerns and suggest precautions to be taken in studies examining receptor-receptor interactions.     

Effect of modification of enkephalin C-terminal functions on affinity selection of opioid receptors

Enkephalin analogs with various C-terminal modifications have been synthesized to evaluate the corresponding structural elements in the opioid receptors. The carboxyl group of the C-terminal leucine5 or glycine5 was converted into the mercaptomethyl (-CH2SH) and hydroxymethyl (-CH2OH) groups, starting from leucinthiol or leucinol for Leu5-derivatives and from cysteamine or ethanolamine for Gly5-derivatives. Interactions of synthetic peptides with the opioid receptors were examined by the radioligand receptor binding assays using rat brain and tritiated enkephalin analogs. The data suggest that the C-terminal carboxyl group in enkephalins is important, but not electrostatically, for interaction with delta-opioid receptors. With leucinthiol-enkephalin in biological assays which examine its inhibitory activity for electrically stimulated contractions of isolated smooth muscle, it was found that the reactive thiol group exists in the mu receptors present in the guinea pig ileum. Leucinthiol-enkephalin became bound covalently to this receptor-thiol group via disulfide formation after prolonged incubation.     

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。     

Brain somatostatin receptors in spontaneously hypertensive rats: an autoradiographic study.

The apparent densities of brain somatostatin (SRIF) receptor sites were compared in adult spontaneously hypertensive rats (SH) and their normotensive genetic counterparts (Wistar-Kyoto; WKY) using quantitative receptor autoradiography. Globally, the distribution of brain [125I][Tyr0, D-Trp8]SRIF14 binding sites was very similar in both strains. However, apparent densities of specific labeling were either higher (subfornical organ, 3.2 x; locus coeruleus, 1.9 x; lateroanterior hypothalamic nucleus, 1.3 x) or lower (basolateral amygdaloid nucleus, 0.8 x; spinal trigeminal sensory nucleus, 0.6 x) in SH than WKY rats in areas especially relevant to CNS cardiovascular integration. This provides further evidence for the possible involvement of brain SRIF neurons in cardiovascular regulation.     

Expression of mu-opioid receptors in developing rat spinal cord: an autoradiographic study

The expression of mu-opioid receptors in the developing rat spinal cord (Postnatal days 7, 14, 30) was studied by autoradiography using [3H]DAMGO. When compared to camera lucida drawings, the receptor was noted over the entire gray matter and dorsal root ganglia at postnatal days 7 and 14. At postnatal day 30, the receptor expression decreased over the gray matter except the superficial laminae (laminae I and II). At all age groups studied, a higher expression of the receptor was noted over the superficial laminae. The study shows that micro-opioid receptors appears early in postnatal development and attains mature receptor distribution relatively late in ontogeny, suggesting a possible role in the normal development of nervous system. This is affirmed by an impairment of psychomotor development in babies born to mothers, addicted to opiates.     

Immunohistochemical study of opioid receptors after chronic morphine treatment in rats

Previously, we have used the biochemical receptor binding method to investigate whether down-regulation of the opioid receptor is a mechanism for morphine tolerance, and we were led to a negative conclusion. In the current study, we further used immunohistochemistry to reinvestigate this issue. Male Sprague-Dawley rats (250-300 g) were chronically treated with morphine s.c. for 2, 4 or 6 days, using an escalating dosage paradigm (5-45 mg), which resulted in a 1.8 to 4.0-fold increase in AD50. Rat brains were removed, frozen, coronally sectioned (14 microm) and processed for mu- or delta-opioid receptor immunohistochemistry using the Avidin-Biotin Complex (ABC) method. No significant decrease in mu-opioid receptor (MOR) immunodensity was found in most of the brain regions, which were enriched with MOR after chronic treatment with morphine except for the anteroventral thalamic nucleus in the ventrolateral part (AVVL). No significant change in delta-opioid receptor (DOR) immunodensity after chronic treatment with morphine was found either. Therefore, our conclusion is that down regulation of opioid receptors may not be an important mechanism for morphine tolerance.     

A new method for labeling and autoradiographic localization of androgen receptors

We have used a novel receptor labeling and autoradiographic technique to localize androgen receptors in the intact rat ventral prostate at the morphological level. Frozen slide-mounted prostate tissue sections (10 micron thick) were incubated with increasing concentrations of [3H]-R1881 in the absence and presence of excess unlabeled R1881. Tissue sections labeled in this way were subjected to concurrent biochemical and autoradiographic analysis. After incubation and washing to remove free [3H]-steroid, some of the sections were wiped from the slides for scintillation counting in order to characterize and quantitate [3H]-R1881 binding. Androgen receptors could indeed be labeled in slide-mounted tissue sections, and specific [3H]-R1881 binding to these receptors was high-affinity (Kd = 1 nM), saturable, and androgen-specific. All cellular androgen receptors appear to be retained, because receptor content in sections was comparable to the sum of receptors in subcellular fractions of homogenized tissue. Replicate labeled slide-mounted tissue sections were dried rapidly, apposed to dry emulsion-coated coverslips, and exposed in the dark for autoradiography. Silver grains were counted over nuclei or cytoplasm of epithelium or stroma to evaluate specific androgen receptor location. Autoradiographic analysis demonstrated androgen receptor localization almost exclusively in the epithelial nuclei, with little or none in the stroma. We discuss here the unique features and advantages of labeling androgen receptors in slide-mounted frozen tissue sections for autoradiographic localization.     

Somatostatin receptors in the senescent rat brain: a quantitative autoradiographic study.

To examine the effects of aging on the density and distribution of somatostatin receptors (SS-R) in the rat brain, receptor autoradiography for SS-R was carried out in rats aged 3 and 24 months using 125I-labeled Tyr11-SS-14. Autoradiograms were quantitatively assessed by an image analyzer to evaluate changes in the expression of SS-R due to senescence. Statistically significant decreases in SS-R binding were found in specific regions of the brains of senescent rats as compared to young adult rats. The regions affected included the periaqueductal gray matter (73% loss versus young adult rats), the interpeduncular nucleus (73% loss), the pontine nucleus (63% loss), the superior colliculus (46% loss), the ventral tegmental area (46% loss), the temporal cortex (39% loss), the frontal cortex (34% loss), the hippocampus (33% loss), the amygdala (27% loss) and the claustrum (26% loss). There was no significant change in SS-R expression in the spinal cord with aging. Significant reductions in SS-R binding in these brain regions may be involved in the impairment of sensory and cognitive function that can occur with aging.     

Effects of chronic electroconvulsive shock on the expression of beta-adrenergic receptors in rat brain: immunological study

The purpose of the present study is to determine the effect of chronic electroconvulsive shock (ECS) on the expression of beta-adrenergic receptors in rat brain by Western blot using mAb beta CO2, a monoclonal antibody against beta-adrenergic receptors. Rats in ECS treated groups received maximal ECS (70 mA, 0.5 second, 60 Hz) through ear-clip electrodes for 12 consecutive days. The experiment was carried out in 14 discrete regions of brain. Chronic ECS reduced the expression of beta-adrenergic receptors in frontal cortex, temporal cortex, parietooccipital cortex, hippocampus and limbic forebrain, but not in other areas of brain. The regional specificity and the magnitude of the reduction of receptor expression are well correlated with those of the reduction of receptor ligand binding, which was determined using [3H]dihydroalprenolol. To the best of our knowledge, this is the first report to demonstrate that chronic ECS decreases the expression of receptor protein in specific regions of rat brain.     

Syntheses of novel high affinity ligands for opioid receptors

A series of novel high affinity opioid receptor ligands have been made whereby the phenolic-OH group of nalbuphine, naltrexone methiodide, 6-desoxonaltrexone, hydromorphone and naltrindole was replaced by a carboxamido group and the furan ring was opened to the corresponding 4-OH derivatives. These furan ring ‘open’ derivatives display very high affinity for μ and κ receptors and much less affinity for δ. The observation that these target compounds have much higher receptor affinity than the corresponding ring ‘closed’ carboxamides significantly strengthens our underlying pharmacophore hypothesis concerning the bioactive conformation of the carboxamide group.     

Structure and regulation of opioid receptors

Significant advances have been made in understanding the structure, function, and regulation of opioid receptors and endogenous opioid peptides since their discovery approximately 25 years ago. This review summarizes recent studies aimed at identifying key amino acids that confer ligand selectivity to the opioid receptors and that are critical constituents of the ligand binding sites. A molecular model of the delta receptor based on the crystal structure of rhodopsin is presented. Agonist-induced down regulation of opioid receptors is discussed, highlighting recent evidence for the involvement of the ubiquitin/proteasome system in this process.     

Solubilization of adrenal medullary opioid receptors

The opioid-binding activity of digitonin extract of bovine adrenal medullary membranes was studied. [3H]Diprenorphine binding to the solubilized material was rapid and saturable. The dissociation constant of [3H]diprenorphine binding was 0.76 nM. Several opioids displaced the [3H]diprenorphine binding. The complex of [3H]diprenorphine and the solubilized binding sites was eluted as a single peak on a Sepharose 6B column and showed an apparent molecular weight of 200,000. These results indicate that active opioid receptors are solubilized with digitonin from bovine adrenal medullary membranes.     

Effect of oestrus cyclicity on the number of brain opioid mu receptors in the rat

The present experiments have been performed in order to analyse whether the binding characteristics of brain opioid receptors of the mu type vary during the different phases of the oestrous cycle in the female rat. To this purpose different groups of females with a regular 4-day oestrous cycle were killed by decapitation in different phases of their oestrous cycle, i.e. at 10.00 and 16.00 h of the first and second day of dioestrus, at 10.00, 12.00, 14.00, 16.00 18.00 and 20.00 of the day of pro-oestrus, and at 10.00, 12.00 14.00, 16.00 and 18.00 of the day of oestrus. The total brains, after discarding the cerebellum, were homogenized and crude membrane preparations were obtained. On these preparations the maximal binding capacity (Bmax, index of the number of receptors) and the constant of affinity (Ka) for dihydromorphine, a typical ligand of mu opioid receptors were evaluated. Serum concentrations of luteinizing hormone (LH), follicle-stimulating hormone (FSH) and prolactin were measured by specific radioimmunoassays in order to exactly ascertain the different phases of the oestrous cycle. The results obtained show that the number of mu opioid receptors in the whole brain presents significant changes during the different phases of the oestrous cycle. In particular, an increase in the concentration of these receptors was observed at 12.00 h of the day of pro-oestrus and at 18.00 h of the day of oestrus; these fluctuations of the number of mu receptors were not accompanied by any change of their affinity for the ligand.(ABSTRACT TRUNCATED AT 250 WORDS)     

Stereospecific opioid drug receptors on excitable cell membranes

In the past decade evidence has accumulated showing that there are stereospecific opioid drug receptors located on the surface membranes of neurones and skeletal muscle fibres which can block action potentials when opioid drugs are applied to the cells. The nature of this evidence and the difficulties involved in this area of investigation are discussed in detail. Two different mechanisms have been described for this depression of excitability; one, a direct blocking action on sodium channels (or the calcium channels in the case of cells with calcium action potentials) and the other, a stimulation of membrane potassium conductance which results in hyperpolarization and increased membrane conductance both of which decrease excitability. For the most part these different mechanisms seem to prevail in different cell types as will be discussed. Some other points discussed are as follows: first, in higher doses (or concentrations) opioids produce a local anestheticlike effect which cannot be antagonized by opioid antagonists; next, the opioid antagonists which are easily easily available and commonly employed change from antagonists to agonists as their concentration is increased; and finally, the evidence required for the demonstration of stereospecific opioid receptors is considered in some detail.