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ABSTRACT: It has been shown previously that opioids induce antinociceptive effects at peripheral sites in the presence of inflammatory processes. Besides being elicited by local injection of opioids, such effects can also be obtained by activation of intrinsic opioid mechanisms, e.g. following stress. In the present study the possible role of cytokines in this mechanism was investigated. Unilateral inflammation of the hindpaw of rats was induced by local injection of Freund's complete adjuvant. Intraplantar injection of tumor necrosis factor alpha (TNF alpha) or interleukin-6 induced a dose-dependent increase in the threshold in the paw pressure test in the inflamed but not in the non-inflamed paw. This increase was prevented by local injection of naloxone and the mu-opioid receptor specific antagonist CTOP (D-Phe-Cys-Tyr-D-Trp-Arg-Thr-Pen-Thr-NH2) as well as by 3-E7, an universal opioid peptide antibody. In rats pretreated with cyclosporin A to suppress the immune system, the antinociceptive effect of TNF alpha was completely inhibited. In concert with previous studies these data indicate that the tested cytokines release opioid peptides (e.g. beta-endorphin and/or enkephalins) from immune cells of the inflamed tissue which act on opioid receptors present on sensory nerve terminals, resulting in antinociception.
European Journal of Pharmacology 11/1993; 242(3):229-35. · 2.52 Impact Factor
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ABSTRACT: The effect of inflammation, induced by unilateral intraplantar injection of Freund's adjuvant, on opioid receptors transported in the sciatic nerve and on opioid receptors present in the paw of the rat was studied by means of in vitro receptor autoradiography using [125I]beta-endorphin (human) as ligand. In the absence of inflammation, human beta-endorphin binding sites accumulated proximally and distally to a ligature placed on the sciatic nerve in a time-dependent manner, indicating bidirectional axonal transport. Some human beta-endorphin binding was also visible in non-inflamed paw tissue. Inflammation of the paw tissue massively increased human beta-endorphin binding on both sides of the sciatic nerve ligature and in the ipsilateral paw tissue. In inflamed paw tissue, beta-endorphin binding accumulated in the cutaneous nerve fibers as well as in the immune cells infiltrating the surrounding tissue. In the sciatic nerve and paw tissue, beta-endorphin binding was displaced by (D-Ala2, N-methyl-Phe4, Gly-ol5)enkephalin and (D-Pen2, D-Pen5)enkephalin, selective mu- and delta-opioid receptor agonists, respectively, and by the universal opioid antagonist naloxone, but not by U-50,488H, a k-selective receptor agonist. Taken together, these data provide neuroanatomical evidence for local inflammation-induced enhanced axonal transport of opioid receptors in rat sciatic nerve and accumulation in paw tissue.
Neuroscience 08/1993; 55(1):185-95. · 3.38 Impact Factor
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ABSTRACT: Both the reinforcing and aversive effects of exogenous opioids have been attributed to the activation of opioid receptors within the mesolimbic dopamine (DA) system. At present, however, it is unclear whether the activity of DA neurons projecting to the nucleus accumbens (NAC) is necessary for the expression of these effects. The present study sought to address this issue in rats by examining the influence of 6-hydroxydopamine (6-OHDA) lesions of the NAC and microinjections of selective DA receptor antagonists into this brain area upon the place conditioning produced by systemically administered opioids. The mu-opioid receptor agonist morphine produced dose-related preferences for the drug-paired place in control animals, whereas the kappa-opioid agonist U-69593 produced place aversions. Bilateral 6-OHDA lesions of the NAC abolished the place conditioning produced by both opioids. Lesions of the caudate/putamen or medial prefrontal cortex were, however, without effect. Microinjection of the D-1 DA antagonist SCH-23390 into the NAC, at a dose which was as ineffective as a conditioning stimulus, attenuated the place conditioning produced by low doses of morphine and U-69593. Over the dose range tested, the D-2 DA antagonist (-)-sulpiride was without effect. Neither SCH-23390 nor 6-OHDA lesions of the NAC modified the place conditioning produced by lithium chloride, a drug of a different pharmacological class. These data demonstrate that the rewarding and aversive effects of opioids are dependent on DA neural transmission within the mesolimbic system and suggest a role for NAC D-1 DA receptors in the mediation of both motivational effects.
Journal of Pharmacology and Experimental Therapeutics 05/1993; 265(1):53-9. · 3.83 Impact Factor
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ABSTRACT: An unbiased conditioned place preference paradigm was used to examine the neuroanatomical substrates mediating the reinforcing and aversive effects of mu and kappa opioid agonists. Unilateral microinjection of the selective mu agonist DAMGO into the ventral tegmental area (VTA), the origin of the mesolimbic and mesocortical dopamine (DA) systems, resulted in dose-dependent preferences for the drug-associated place. Intracranial injections of DAMGO into terminal projection sites of VTA DA neurons, the nucleus accumbens and the medial prefrontal cortex, however, as well as into the lateral hypothalamus, were without effect. In contrast, microinjections of the kappa agonist U50,488H and the dynorphin derivative E-2078 into the VTA produced place aversions. Place aversions were also observed after microinjections of U50,488H and E-2078 into the nucleus accumbens, medial prefrontal cortex and lateral hypothalamus. However, microinjections of mu and kappa agonists into either the origin of the mesostriatal DA system, the substantia nigra or into its major terminal field, the nucleus caudatus-putamen, was without effect. Autoradiographic studies revealed that the substances remained within a restricted area around the injection site, confirming that the effects observed were mediated therein. Thus, these data suggest an important role for the A10 neurons in the VTA in the regulation of both mu and kappa opioid-induced motivational states. The rewarding effects are associated with the activation of mu receptors in the VTA, whereas aversive effects are associated with the activation of kappa receptors in the VTA and its limbic-cortical terminal regions.
Journal of Pharmacology and Experimental Therapeutics 02/1993; 264(1):489-95. · 3.83 Impact Factor
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ABSTRACT: Exogenous kappa-opioid agonists have been shown to produce peripheral antinociceptive effects in inflamed tissue. This study sought to determine whether endogenous kappa-receptor ligands are present at the site of inflammation. In Freund's adjuvant-induced hindpaw inflammation in the rat, we show, by immunohistochemistry, that dynorphin is detectable within inflammatory cells and in the cutaneous nerves in a similar distribution as calcitonin gene-related peptide, a specific marker for sensory neurons. These findings extend our previous observations in that not only beta-endorphin and Met-enkephalin (mu- and delta-receptor ligands), but also a preferential kappa-ligand is present within inflamed subcutaneous tissue.
Neuroscience Letters 07/1992; 140(1):85-8. · 2.11 Impact Factor
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Annals of the New York Academy of Sciences 07/1992; 654:347-56. · 3.15 Impact Factor
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ABSTRACT: The mesolimbic dopaminergic system has been implicated in mediating the motivational effects of opioids and other drugs of abuse. The site of action of opioids within this system and the role of endogenous opioid peptides in modulating dopamine activity therein remain unknown. Employing the technique of in vivo microdialysis and the administration of highly selective opioid ligands, the present study demonstrates the existence of tonically active and functionally opposing mu and kappa opioid systems that regulate dopamine release in the nucleus accumbens, the major terminal area of A10 dopaminergic neurons. Thus, stimulation of mu-type receptors in the ventral tegmental area, the site of origin of A10 dopaminergic neurons, increases dopamine release whereas the selective blockade of this opioid receptor type results in a significant decrease in basal dopamine release. In contrast, stimulation of kappa-type receptors within the nucleus accumbens decreases dopamine release whereas their selective blockade markedly increases basal dopamine release. These data show that tonic activation of mu and kappa receptors is required for the maintenance of basal dopamine release in the nucleus accumbens. In view of the postulated role of the mesolimbic system in the mediation of drug-induced alterations in mood and affect, such findings may have implications for the treatment of opiate dependence and affective disorders.
Proceedings of the National Academy of Sciences 04/1992; 89(6):2046-50. · 9.68 Impact Factor
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ABSTRACT: The detailed information now available regarding the neurobiology of opiates (opioids) has contributed greatly to our understanding of opioid addiction. This in turn has permitted a more complete understanding of the processes underlying drug addiction. Opioid agonists with a high affinity for mu- or delta-receptors produce conditioned preferences for an environment previously associated with their administration, whereas kappa-agonists induce place aversions. Studies in which opioids were microinjected into discrete brain areas suggest that these opposing motivational effects are mediated via an interaction with the mesolimbic dopamine (DA) system originating in the midbrain. Microdialysis studies have clearly shown that mu-agonists preferentially increase DA release and metabolism in the Nucleus accumbens, whereas kappa-receptor agonists decrease release. Opposite effects on DA are observed in response to microinjections of selective antagonists for these receptor types, suggesting the existence of tonically active endogenous opioid systems which maintain DA release in the mesolimbic system: a continuous "reward" tone, probably mediated by beta-endorphin in the ventral tegmentum of the midbrain and an "aversive" tone, mediated by dynorphin in the Nucleus accumbens. Aspects of such a bidirectional regulation of the mesolimbic system by endogenous opioids are discussed.
Arzneimittel-Forschung 03/1992; 42(2A):256-9. · 0.72 Impact Factor
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ABSTRACT: The present study sought to evaluate the influence of chronic opioid antagonist treatment upon the discriminative stimulus and analgesic effects of the opioid receptor agonist fentanyl. Male Wistar rats were trained to discriminate fentanyl (0.04 mg/kg) from saline in a two-lever food reinforced paradigm. After acquisition of the discrimination, they were implanted with osmotic minipumps which delivered either naltrexone (0.07 mg/h) or distilled water, and the sensitivity of discrimination was assessed at various times after pump removal. The influence of chronic naltrexone treatment upon the antinociceptive effects of fentanyl was assessed in drug-naive (control) rats and in rats which had received fentanyl in the same dosage schedule as those in drug discrimination experiments. Chronic infusion of naltrexone for 7 days did not modify the dose-response curve for the fentanyl vs. saline discrimination. Algesiometric tests revealed a significant increase in the antinociceptive effect of fentanyl in control rats after naltrexone treatment. In contrast, such supersensitivity was not observed in rats which had previously received fentanyl injections. Autoradiographic data revealed a naltrexone-induced upregulation of mu opioid receptors in control animals. Paradoxically, this effect was significantly increased in fentanyl-pretreated rats. These data suggest that prior drug experience can affect the development of antagonist-induced supersensitivity to the behavioral actions of opioid agonists. Furthermore, it would appear that after chronic agonist treatment the phenomena of opioid receptor upregulation and functional supersensitivity are dissociated.
Journal of Pharmacology and Experimental Therapeutics 02/1992; 260(1):168-74. · 3.83 Impact Factor
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ABSTRACT: Our previous studies indicate that endogenous opioids (primarily beta-endorphin) released during stressful stimuli can interact with peripheral opioid receptors to inhibit nociception in inflamed tissue of rats. This study sought to localize opioid precursor mRNAs and opioid peptides deriving therefrom in inflamed tissue, identify opioid containing cells and demonstrate their functional significance in the inhibition of nociception. In rats with Freund's adjuvant-induced unilateral hindpaw inflammation we show that: (i) pro-opiomelanocortin and proenkephalin-mRNAs (but not prodynorphin mRNA) are abundant in cells of inflamed, but absent in non-inflamed tissue; (ii) numerous cells infiltrating the inflamed subcutaneous tissue are stained intensely with beta-endorphin and [Met]enkephalin (but only few scattered cells with dynorphin) antibodies; (iii) beta-endorphin is present in T- and B-lymphocytes, monocytes and macrophages; and (iv) whole-body irradiation suppresses stress-induced antinociception in the inflamed paw. Taken together, these data suggest that endogenous opioid peptides are synthesized and processed within various types of immune cells at the site of inflammation. Immunosuppression abolishes the intrinsic antinociception in inflammatory tissue confirming the functional significance of these cells.
Neuroscience 02/1992; 48(2):491-500. · 3.38 Impact Factor
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ABSTRACT: The influence of prolonged pain upon hypothalamic opioid peptide release in vitro was examined in rats subjected to Freund's adjuvant (FA)-induced unilateral inflammation of the hindlimb. Basal release of enkephalin (ENK) but not beta-endorphin (END) or dynorphin (DYN) was increased 10 days following FA treatment. Superfusion of corticotropin-releasing factor (CRF; 10(-8) M) stimulated the release of opioid peptides in control hypothalami. CRF, however, failed to modify beta-END and DYN release in hypothalami of FA-treated rats, whereas ENK release was markedly reduced. In contrast, KCl-stimulated opioid peptide release did not differ between FA and control hypothalami. These data demonstrate that prolonged inflammatory pain alters the responsiveness of hypothalamic opioid systems to CRF. It is suggested that this effect is mediated at the level of the CRF neuron or its receptor.
Brain Research 12/1991; 563(1-2):209-14. · 2.73 Impact Factor
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ABSTRACT: In the present study we used in vivo microdialysis to examine the influence of beta-endorphin-(1-27) (beta-EP-(1-27) upon beta-endorphin (beta-EP)-induced dopamine (DA) release in the nucleus accumbens of anesthetized rats. Microdialysis probes were inserted into the nucleus accumbens and perfusates were analyzed for DA and its metabolites, dihydroxyphenylacetic acid (DOPAC) and homovanillic acid (HVA), using a reversed-phase HPLC system with electrochemical detection. Intracerebroventricular (i.c.v.) administration of beta-EP-(1-27) (5-20 micrograms) resulted in a dose-dependent increase in DA release which was smaller than the beta-EP-induced DA release, whereas metabolite levels were not altered. Pretreatment with beta-EP-(1-27) (5-20 micrograms) significantly altered the beta-EP (5 micrograms)-induced increase in DA release. These results indicate that beta-EP-(1-27) antagonizes the beta-EP-induced release of DA in the nucleus accumbens. In addition to its antagonistic properties at the beta-endorphin binding site, beta-EP-(1-27) appears to be a partial agonist, inducing increased DA release. These findings suggest a regulatory function for this naturally occurring beta-EP fragment within the mesolimbic system.
European Journal of Pharmacology 09/1991; 200(2-3):319-24. · 2.52 Impact Factor
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ABSTRACT: The influence of chronic lithium (Li) treatment upon the secondary reinforcing effects of opioid agonists and antagonists was examined by use of an unbiased place preference conditioning procedure. Administration of the mu-agonist morphine to control rats resulted in marked preferences for the drug-associated place and a similar effect was observed in response to the psychostimulant d-amphetamine. In contrast, the selective kappa-opioid agonist U-69593 [(5 alpha,7 alpha,8 beta)-(-)-N-methyl-N-(7-1(pyrrolidinyl-1-oxaspirol(4,5) dec-8-yl benzeneacetamide)] and the opioid antagonist naloxone produced dose-related place aversions. Chronic administration of a Li-containing diet, which produced serum levels of 0.56 mmol/l, abolished the place preferences induced by morphine but not d-amphetamine. This treatment abolished the aversive effects of naloxone but did not modify those produced by U-69593. These data and those from a previous place conditioning study indicate that Li can function as an antagonist of mu-opioid receptor ligands in vivo and that this action underlies its motivational effects. Furthermore, the inability of chronic Li treatment to modify either the content or basal release of beta-endorphin in various brain regions suggests that this antagonism is mediated directly at the level of the opioid receptor and/or its transducer systems.
Journal of Pharmacology and Experimental Therapeutics 04/1991; 256(3):1101-6. · 3.83 Impact Factor
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ABSTRACT: In vivo microdialysis was used to compare the effects of beta-endorphin upon dopamine (DA) release in the nucleus accumbens (NAC) of anesthetized versus freely moving rats, and to examine the role of the mesolimbic DA system in mediating both the motoric and secondary reinforcing effects of this peptide. Microdialysis probes were inserted into the NAC and perfusates were analyzed for DA and its metabolites, dihydroxyphenylacetic acid (DOPAC) and homovanillic acid (HVA), using a reversed phase HPLC system with electrochemical detection for separation and quantification. Intracerebroventricular (ICV) administration of beta-endorphin (2.5 and 5.0 micrograms) increased DA release and metabolites in both freely moving and anesthetized rats. This effect was of greater magnitude and duration in freely moving rats and was accompanied by stimulation of locomotor activity. The 5 micrograms dose also functioned as a secondary reinforcer in a conditioned place preference paradigm. A higher dose of beta-endorphin (7.5 micrograms) stimulated DA release and metabolites in anesthetized rats but failed to affect these parameters in freely moving rats. At this dose, catalepsy and a loss of the reinforcing effects of this peptide were observed. These data demonstrate marked differences in the effects of beta-endorphin upon DA release in the awake versus anesthetized rat. Further, the finding that the reinforcing and locomotor stimulating effects of beta-endorphin only occur at those doses which stimulate DA release suggest that this action is critical for the expression of both behavioral effects.
Psychopharmacologia 02/1991; 104(1):51-6. · 4.08 Impact Factor
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ABSTRACT: An unbiased place preference conditioning procedure was used to examine the secondary reinforcing effects of selective D-1 dopamine (DA) receptor antagonists and the neuroanatomical substrates mediating these effects. Systemic administration of SCH-23390 or the non-benzazepine D-1 receptor antagonist A-69024 produced dose-related conditioned aversions for the drug-associated place. In contrast, the D-2 antagonists spiperone and (-)sulpiride were without effect. SCH-23390-induced place aversions were also observed after intracerebroventricular administration. The minimum dose producing this effect was significantly lower than that after systemic injection. Aversive effects were also observed after microinjection of SCH-23390 into the n. accumbens. In contrast, microinjections of this antagonist into the ventral tegmental area, caudate putamen or medial prefrontal cortex were without effect. These data confirm that the blockade of D-1 but not D-2 DA receptors induces aversive states. Furthermore, they suggest that D-1 receptors in the n. accumbens may play an important role in the regulation of non-drug induced affective states.
Psychopharmacologia 02/1991; 103(2):209-14. · 4.08 Impact Factor
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ABSTRACT: An involvement of the mesolimbic dopamine (DA) system in mediating the motivational effects of opioids has been suggested. Accordingly, the present study employed the technique of in vivo microdialysis to examine the effects of selective mu-, delta-, and kappa- opioids on DA release in the nucleus accumbens (NAC) of anesthetized rats. Microdialysis probes were inserted into the NAC and perfusates were analyzed for DA and its metabolites, dihydroxyphenylacetic acid (DO-PAC) and homovanillic acid (HVA), using a reverse-phase HPLC system with electrochemical detection for separation and quantification. Intracerebroventricular (i.c.v.) administration of selective mu-opioid [D-Ala2, N-methyl-Phe4, Gly5-ol]-enkephalin (DAMGO) or delta-opioid [D-Pen2, D-Pen5]-enkephalin (DPDPE) agonists, at doses that function as positive reinforcers in rats, resulted in an immediate and significant increase in extracellular DA. DOPAC and HVA levels were also significantly increased. The effects of DAMGO were blocked by the selective mu-antagonist D-Pen-Cys-Tyr-D-Trp-Orn-Thr-Pen-Thr-NH2 (CTOP) whereas those of DPDPE were blocked by the delta-antagonist allyl2-Tyr-Aib-Aib-Phe-Leu-OH (ICI 174,864). In contrast to mu- and delta-agonists, the kappa-agonist N-CH3-Tyr-Gly-Gly-Phe-Leu-Arg-N-CH3-Arg-D-Leu-NHC2H5 (E-2078), a dynorphin analog that produces aversive states, decreased DA release in a biphasic manner. Norbinaltorphimine, a selective kappa-antagonist, could block this effect. These results demonstrate that mu-, delta-, and kappa-opioid agonists differentially affect DA release in the NAC and this action is centrally mediated.
Journal of Neurochemistry 12/1990; 55(5):1734-40. · 4.06 Impact Factor
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ABSTRACT: In the present study we used in vivo microdialysis to examine the influence of beta-endorphin on dopamine (DA) release in the nucleus accumbens of anesthetized rats and to identify the opioid receptor types mediating its effects. Microdialysis probes were inserted into the nucleus accumbens and perfusates were analysed for DA and its metabolites, dihydroxyphenylacetic acid (DOPAC) and homovanillic acid (HVA), using a reversed phase HPLC system with electrochemical detection for separation and quantification. Intracerebroventricular (i.c.v.) administration of beta-endorphin resulted in a dose-dependent increase in DA and its metabolites. Pretreatment with the selective delta-antagonist ICI 174,864 significantly attenuated the beta-endorphin-induced increase in DA release and metabolism whereas pretreatment with the selective mu-antagonist CTOP resulted abolition of the beta-endorphin effect. These data demonstrate that the blockade of either mu- or delta-opioid receptors is sufficient to antagonize the stimulatory effects of beta-endorphin on DA release and metabolism. As such, these findings suggest that the concomitant activation of both mu- and delta-receptors underlies the effects of beta-endorphin on DA release in the nucleus accumbens.
European Journal of Pharmacology 12/1990; 190(1-2):177-84. · 2.52 Impact Factor
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ABSTRACT: This study utilized inhibitors of the enzymatic degradation of enkephalins to investigate the possibility that this class of opioid peptides contributes to the stress-induced antinociception seen in inflamed peripheral tissues of rats with Freund's complete adjuvant-initiated unilateral hind paw inflammation. Following a 1-min cold water swim stress, rats previously injected in both hind paws with vehicle showed a transient elevation of paw pressure threshold, which was much greater in inflamed than in noninflamed paws and returned to control levels within 15 min. This preferential antinociception was significantly pronounced and prolonged in rats previously injected bilaterally with a cocktail of the enkephalinase inhibitors thiorphan (0.2 mg intraplantar) and bestatin (0.2 mg intraplantar). The enhancement of stress-induced antinociception by thiorphan/bestatin was dose-dependently antagonized by tertiary naloxone (0.125-2 mg kg-1 s.c.). Evidence for a peripheral site of action of enkephalin-like peptides in this model was provided by the antagonism of the actions of thiorphan/bestatin by quaternary naltrexone (10-20 mg kg-1 s.c.). Systemic administration of the orally active enkephalinase inhibitor SCH 34826 (5-40 mg kg-1 i.p.) was also able to dose-dependently potentiate the preferential stress-induced antinociception in a naloxone (1 mg kg-1 s.c.) reversible manner.
Journal of Pharmacology and Experimental Therapeutics 12/1990; 255(2):795-802. · 3.83 Impact Factor
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ABSTRACT: Exogenous opioids can produce localized opioid receptor-mediated antinociception in peripheral inflamed tissue. Previous studies show that activation of endogenous opioids by a cold water swim in rats with hind paw inflammation results in a similar local antinociceptive effect but suggest that pituitary-adrenal opioid pools are not directly involved in producing this effect. Here we show increased amounts of opioid peptides in immune cells infiltrating the inflamed tissue. Furthermore, we demonstrate immunoreactive opioid receptors on peripheral terminals of sensory neurons. The local administration of antibodies against opioid peptides or receptors or systemic pretreatment with the immunosuppressant cyclosporine blocks cold water swim-induced antinociception. These findings suggest that antinociception in inflammation can be brought about by endogenous opioids from immune cells interacting with opioid receptors on peripheral sensory nerves.
Proceedings of the National Academy of Sciences 09/1990; 87(15):5935-9. · 9.68 Impact Factor
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ABSTRACT: This study examined the effects of corticotropin-releasing factor (CRF) on the in vitro release of methionine-enkephalin (Met-enkephalin) and dynorphin in neostriatal slices taken from rats with unilateral 6-hydroxydopamine (6-OHDA)-induced lesions of the nigrostriatal DA pathway. In neostriatal slices from control saline-infused animals and in those from the contralateral hemisphere of 6-OHDA-lesioned animals, CRF (10(-10) M) administered as a 90-min pulse exerted potent stimulatory effects on both Met-enkephalin and dynorphin release. In the neostriatal slices of 6-OHDA-lesioned striata, both the basal release and tissue content of Met-enkephalin were significantly (P less than 0.01) higher (2-fold) than those of control animals and the contralateral hemisphere of 6-OHDA-lesioned animals; however, neither the basal release nor the tissue content of dynorphin in 6-OHDA-lesioned striata was significantly different from control striata. In response to CRF (10(-10) M) the release of both Met-enkephalin and dynorphin were significantly diminished in slices of 6-OHDA-lesioned striata. These data support previous studies suggesting that nigrostriatal DA itself may exert a tonic inhibitory action on the activity of striatal Met-enkephalin neurones; however, DA may not have the same influence on striatal dynorphin neurons. However, the results of this study demonstrate that the action of CRF on Met-enkephalin as well as dynorphin release from the rat neostriatum is DA dependent. The data suggest that CRF receptors in the rat neostriatum may be localized on nigrostriatal/nigropallidal DA terminals/collaterals.
Brain Research 09/1990; 526(1):173-6. · 2.73 Impact Factor
