Activation of central ATP-sensitive potassium channels produces the antinociception and spinal noradrenaline turnover-enhancing effect in mice

ICV cromakalim, a K⁺ channel opener, produced antinociception. This effect was completely antagonized by ICV glibenclamide, a selective adenosine triphosphate-sensitive K⁺ channel (K_ATP channel) blocker. Furthermore, direct opening of central K_ATP channels by ICV cromakalim increased the spinal noradrenaline (NA) turnover. On the other hand, the antinociception induced by ICV morphine ( opioid agonist), but not ICV U-50,488H ( opioid agonist) was markedly potentiated by cromakalim. These findings suggest that the opening of central K_ATP channels may elicit the antinociceptive effect and activate the descending NAergic pathway, and central K_ATP channels play an important role as a modulator of the antinociception induced by agonists but not agonists.     

Antagonism of the morphine-induced Straub tail reaction by κ-opioid receptor activation in mice

The Straub tail reaction (STR) induced by intracerebroventricular injection (ICV) of morphine was significantly antagonized by -funaltrexamine (-FNA, antagonist), given intracerebroventricularly (ICV), but not naltrindole given ICV (NTI, antagonist) or SC norbinaltorphimine given subcutaneously (SC) (nor-BNI, antagonist). When given either SC or ICV the -agonist, U-50,488H markedly suppressed the STR elicited by ICV morphine; these effects were reversed by nor-BNI. These results suggest that the activation of supraspinal receptors can inhibit the ICV morphine-induced STR which results from activation of supraspinal receptors.     

Behavioural and anticonvulsant effects of Ca2+ channel toxins in DBA/2 mice

This study investigated the behavioural and anticonvulsant effects of voltage-sensitive calcium channel blockers in DBA/2 mice.-Conotoxin MVIIC (0.1, 0.3 g ICV/mouse) and-agatoxin IVA (0.1, 0.3, 1 g ICV), which act predominantly at P- and/or Q-type calcium channels, prevented clonic and tonic sound-induced seizures in this animal model of reflex epilepsy (ED₅₀ values with 95% confidence limits for protection against clonic sound-induced seizures were 0.09 (0.04–0.36) g ICV and 0.09 (0.05–0.15) g ICV, respectively and against tonic seizures 0.07 (0.03–0.16) g ICV and 0.08 (0.04–0.13) g ICV, respectively). The N-type calcium channel antagonists-conotoxin GVIA and-conotoxin MVIIA were also tested in this model.-Conotoxin GVIA was anticonvulsant in DBA/2 mice, but only at high doses (3 g ICV prevented tonic seizures in 60% of the animals; 10 g ICV prevented clonic seizures in 60% and tonic seizures in 90% of the animals), whereas-conotoxin MVIIA did not inhibit sound-induced seizures in doses up to 10 g ICV. Both-conotoxin GVIA and-conotoxin MVIIA induced an intense shaking syndrome in doses as low as 0.1 g ICV, whereas-conotoxin MVIIC and-agatoxin IVA did not produce shaking at any of the doses examined. Finally,-conotoxin GI (0.01–1 g ICV) and-conotoxin SI (0.3–30 g ICV), which both act at acetylcholine nicotinic receptors, were not anticonvulsant and did not induce shaking in DBA/2 mice. These results confirm that blockers of N- and P-/Q-type calcium channels produce different behavioural responses in animals. The anticonvulsant effects of-conotoxin MVIIC and-agatoxin IVA in DBA/2 mice are consistent with reports that P- and/or Q-type calcium channel blockers inhibit the release of excitatory amino acids and are worthy of further exploration.     

Effects of intracerebroventricular administration of prostaglandin D2 on behaviour,blood pressure and body temperature as compared to prostaglandins E2 and F2α

The present work examined some central nervous actions of prostaglandin D₂ (PGD₂), which is the most prevalent prostaglandin in rodentorain. The effects of PGD₂ were compared with those of PGE₂ and PGF₂. The prostaglandins were administered intracerebroventricularly (ICV) to conscious rats using the method of Herman (1970). All three prostaglandins studied produced depressive behavioral effects, causing obvious sedation at doses of 2.0 g and 20.0 g ICV. PGD₂ and PGE₂ significantly reduced spontaneous motor activity at doses of 2.0 g and 20.0 g ICV. PGF₂ was less effective; only 20.0 g significantly inhibited motor activity. At a dose of 20.0 g ICV all three compounds were shown to block convulsions induced by pentylenetetrazol. PGD₂, the most effective prostaglandin in this respect, was still slightly anticonvulsive at a dose of 2.0 g ICV. PGF₂ hat the weakest anticonvulsive potency. PGE₂ and PGF₂ (2.0 g and 20.0 g ICV) caused a marked hypertensive effect, whereas PGD₂ at the same dose levels only produced a small increase in blood pressure. PGE₂ and PGF₂ (2.0 g and 20.0 g) also exerted marked pyrogenic actions. The effects of PGD₂ on body temperature were variable. When given at a dose of 20.0 g ICV, it caused slight hyperthermia whereas a lower dose (2.0 g ICV) induced a moderate fall in body temperature. These findings suggest a relationship between the actions of the different prostaglandins on blood pressure and body temperature.A preliminary report was given at the Spring Meeting of the Deutsche Pharmakologische Gesellschaft, March 1983 (Förstermann and Heldt, 1983)     

Characterization of the discriminative stimulus effects of centrally administered morphine in the rat

The discriminative stimulus effects of centrally administered morphine were characterized in rats trained to discriminate 3.0 mg/kg SC morphine from saline in a two-choice discrete-trial avoidance paradigm. The intracerebroventricular (ICV) administration of 0.3–10 g morphine engendered morphine-appropriate responding, morphine administered ICV being nearly 1000 times as potent as morphine administered SC. Cannula implantation itself did not affect the sensitivity of the rats to the discriminative effects of morphine. The onset of the discriminative stimulus effects of ICV morphine was not immediate; stimulus generalization comparable to that produced by 3.0 mg/kg morphine occurred 30–60 min after the injection of 1.0 or 10 g ICV morphine and persisted for 90 and 150 min, respectively. Naltrexone blocked the discriminative stimulus effects of 10 g ICV morphine in a dose-related manner. Complete antagonism of the stimulus effects of this dose of morphine was obtained with 0.01–0.03 mg/kg SC naltrexone. When administered centrally, the relatively lipid insoluble naltrexone methobromide completely antagonized the discriminative effects of 3.0 mg/kg morphine at a median effective dose of 0.3 g. In contrast, when injected systemically at a dose of 1.0 mg/kg (approximately 500 g), naltrexone methobromide failed to block the discriminative stimulus effects of either 10 g ICV morphine or the SC training dose. Thus, periventricular brain sites appear to be involved in mediating the discriminative stimulus effects of morphine in the rat.     

Infusion of γ2-MSH produce a conditioned taste aversion in morphine-dependent rats

A two flavour, unbiased, taste preference conditioning procedure was used to test for possible motivating effects of ₂-MSH. Three training trials failed to produce any significant effect with doses ranging from 2.4 to 40 g/ ICV infusion in drug-naive, non-operated or placebo-implanted rats. However, in rats made dependent by SC implantation of a morphine pellet 4 days earlier 15 g ₂-MSH/infusion produced a taste aversion that was comparable to that produced by infusion of a low dose of the competitive opioid receptor antagonist naloxone (0.32 g). The findings confirm with a conditioning procedure and with opiate-dependent animals the naloxone-like effects of ₂-MSH. They also suggest that this endogenously-located peptide may acquire an aversive property as a result of chronic morphine treatment.     

The effect of chronic treatment with naltrindole,a selective δ-opioid antagonist,on μ-opioid receptor-mediated antinociception in diabetic mice

The effects of chronic treatment with naltrindole (NTI), a selective -opioid receptor antagonist, on the antinociceptive effects of -opioid agonists, such as morphine and [D-Ala²,N-MePhe⁴, Gly-ol⁵]enkephalin (DAMGO) were examined in diabetic mice. Antinociception induced by morphine (10 g, ICV) and DAMGO (0.5 g, ICV) was significantly lower in diabetic mice than in non-diabetic mice. The low sensitivities to the antinociceptive potencies of ICV morphine (10 g) and DAMGO (0.5 g) in diabetic mice were reversed compared with those in saline-treated non-diabetic mice when diabetic mice had been pretreated with NTI (2 mg/kg per day, SC) for 14 days. Naive mice which had been injected with spleen mononuclear cells from saline-treated diabetic mice were less sensitive to DAMGO-induced antinociception. However, adoptive transfer of spleen mononuclear cells from NTI-treated diabetic mice to naive mice had no effect on the recipients' antinociceptive sensitivity to DAMGO. These results suggest that the effect of NTI on the sensitivity to -opioid agonists in diabetic mice may be due to the immunosuppressive effects of NTI.     

Pharmacokinetics,anticonvulsant efficacy,and adverse effects of trans-2-en-valproate after acute and chronic administration in amygdala-kindled rats

Summary Effects of adenosine and nucleotides on the release of previously stored [3H]-noradrenaline were studied in rabbit brain cortex slices. The slices were stimulated twice, in most experiments by 6 electrical field pulses delivered at 100 Hz.Adenosine and the nucleotides AMP, ADP, ATP, AMPS, ADPS, ATPyS, ,-imido-ATP and ,-methyl-ene-ATP all reduced the evoked overflow of tritiated compounds. For purines for which concentration-response curves were determined, the order of potency was adenosine > ATP ATPyS ,-imido-ATP ADP > ,-methylene-ATP. AMP 30 Etmol/l and AMPS 30 mol/l were approximately equieffective with 30 mol/l of adenosine and ATPS, and ADPS, 30 mol/l was approximately equieffective with 30 mol/l of ADP. ,-Methylene-ADP, 2-methylthio-ATP, UTP and GTPS did not change the evoked overflow of tritium. ,-Methylene-ATP caused an increase; however, the increase was small and became significant only after 59 min of exposure to ,-methylene-ATP or when the slices were stimulated by 30 pulses, 10 H₂. Neither adenosine deaminase (100 U/l) nor the blocker of 5-nucleotidase, ,-methylene-ADP (10 mol/l), attenuated the inhibition caused by ATP, ATPyS and ,-methylene-ATP, despite the fact that adenosine deaminase abolished the effect of adenosine. 8-Cyclopentyl-1,3-dipropylxanthine (DPCPX, 10 nmol/l) shifted the concentration-response curves of adenosine, ATPyS, ,-imido-ATP and ,-methylene-ATP to the right by very similar degrees. 8(p-Sulphophenyl)-theophylline (30 and 300 mol/l) also markedly antagonized the inhibition produced by ATPS. ,-Methylene-ATP (10 and 30 mol/l) and suramin (100 gmol/l) did not modify the effects of adenosine, ATPS and ,-methylene-ATP.It is concluded that nucleotides themselves can inhibit the release of noradrenaline in the rabbit brain cortex. The nucleotides and adenosine seem to act at the same site, i.e., the A₁ subtype of the P₁-purinoceptor. The results support the notion that metabolically stable, phosphate chain-modified nucleotides such as ATPS, ,-imido-ATP and ,-methylene-ATP can be potent P₁ agonists. No evidence was found for presynaptic P_2X-, P_2Y- or P₃-purinoceptors. Send offprint requests to I. von Kugelgen at the above address     

Interaction of adenine nucleotides,UTP and suramin in mouse vas deferens: suramin-sensitive and suramin-insensitive components in the contractile effect of ATP

Summary Effects of various nucleotides, nucleosides and noradrenaline on smooth muscle tension were studied in the isolated mouse vas deferens. ,-Methylene-ATP, ATPS, noradrenaline, ATP and UTP elicited contraction, with potency decreasing in that order; there was no contractile response to adenosine or uridine (up to 100 mol/l). Prolonged incubation with ,-methylene-ATP (concentration increased stepwise from 0 to 15 mol/l) selectively reduced contractions induced by ATP and UTP but not those induced by noradrenaline, and there was cross-tachyphylaxis between ATP and UTP. Suramin (10–300 mol/l) did not alter the response to noradrenaline but shifted the concentration-response curves for ,-methylene-ATP, ATPS, UTP and lower concentrations of ATP (0.1–1 ol/l) to the right. The pA₂-values of suramin were 5.2 against ,-methylene-ATP, 4.8 against ATPyS, 5.1 against UTP and 5.4 against lower concentrations of ATP. The effects of higher concentrations of ATP were largely resistant to suramin. The results indicate that the mouse vas deferens possesses contraction-mediating smooth muscle P_2X-receptors. UTP also acts at this receptor, and there is no evidence for a separate UTP receptor. The selective inhibition of nucleotide- but not noradrenaline-induced contractions by suramin confirms the view that suramin is a selective P₂-antagonist. The resistance against suramin of part of the effect of ATP suggests that ATP activates a suramin-insensitive site in addition to the P_2X-receptor.Send offprint requests to I. von Kügelgen at the above address     

Inhibition by nucleotides acting at presynaptic P2-receptors of sympathetic neuro-effector transmission in the mouse isolated vas deferens

Summary Effects of nucleotides and nucleosides on smooth muscle tension and the release of previously stored [³H]-noradrenaline were studied in the mouse isolated vas deferens. The tissue was stimulated twice by 20 electrical field pulses delivered at 2 Hz (S₁, S₂)., \-Methylene-ATP, ATPS, ATP and UTP elicited contraction, with potency decreasing in that order; there was no contractile response to adenosine (up to 100 mol/1) and uridine (up to 1 mmol/1). The electrically evoked overflow of tritium was reduced by the drugs in the following order of potency: ATPS > ATP = adenosine > UTP; ,\-meth-ylene-ATP (up to 10 µmol/l) and uridine (up to 1 mmol/1) did not significantly change the evoked overflow. 8-(p-Sulphophenyl)theophylline did not alter the contractile responses to the nucleotides; it prevented the overflow-inhibiting effect of adenosine and reduced that of UTP; the overflow-inhibiting effects of ATP and ATPS were not significantly attenuated. After prolonged exposure to ,-methylene-ATP, all contractile nucleotide effects were abolished; in contrast, the depression by adenosine and the nucleotides of the evoked overflow of tritium persisted. None of the effects was changed by indometacin, yohimbine or reactive blue 2.It is concluded that ATP, ATPS, ,\-methylene-ATP and UTP produce contraction of the vas deferens by activation of P_2x-receptors. Moreover, the nucleotides inhibit per se the release of [3H]-noradrenaline (and presumably the co-transmitter mixture of noradrenaline and ATP); the effect of ATP is not, or only to a small extent, due to breakdown to adenosine. The presynaptic site of action of the purine nucleotides is a P₂-receptor which differs from the P_2X-receptor and may be a reactive blue 2-resistant P_2y-like receptor.     

Potentiation of catalepsy induced by narcotic agents during Haffner's test for analgesia

Potentiation of morphine catalepsy in the mouse during Haffner's (tail-clip) test for analgesia has been investigated. Very marked potentiation occurred in the presence of the clip. Both native and clip catalepsy were antagonised by nalorphine. Atropine antagonised morphine native catalepsy in a dose-dependent fashion, but produced a parallel increase in both analgesia and clip catalepsy at higher doses. Haloperidol catalepsy was abolished in the presence of the clip but reappeared on its removal. It is suggested that morphine must have at least two sites of action in producing catalepsy to account for these results.     

Evidence for two separate vasoconstriction-mediating nucleotide receptors,both distinct from the P2X-receptor,in rabbit basilar artery: a receptor for pyrimidine nucleotides and a receptor for purine nucleotides

Summary Uridine 5-triphosphate- (UTP-) and adenosine 5-triphosphate-(ATP) induced vasoconstriction was studied in the rabbit basilar artery. The arteries were incubated and perfused at a constant rate of flow. Vasoconstriction was measured as an increase in perfusion pressure.Serotonin, histamine and noradrenaline caused concentration-dependent vasoconstriction, with potency decreasing in that order. Of the nucleotides tested, UTP, UDP, UMP, CTP, ATP, ADP, adenosine 5-O-(3-thio)triphosphate (ATPS), and ,-imido adenosine 5-triphosphate (AMP-PNP) elicited concentration-dependent vasoconstriction, whereas AMP, 2-methylthio-ATP, , -methylene-ATP and ,-methylene-ATP up to 10^–3 mol/l caused no or only a very small increase in perfusion pressure. The order of potency of the pyrimidine nucleotides was: UTP = UDP UMP = CTP; that of the purine nucleotides was: ATPS > AMP-PNP > ATP > ADP > 2-methylthio-ATP = , -methylene-ATP = ,-methylene-ATP. The vasoconstrictor effects of UTP and ATP were not or only to a minor degree influenced by: phentolamine; a mixture of atropine, diphenhydramine and methysergide; indometacin; nordihydroguaiaretic acid; denervation by 6-hydroxydopamine; or mechanical removal of endothelium. Prolonged exposure to ,-methylene-ATP elicited only a very small vasoconstriction and did not change the constrictor effects of UTP or ATP. Prolonged exposure to ATPS elicited marked vasoconstriction; subsequently, responses to ATP were reduced whereas those to UTP were, if anything, slightly enhanced. Reactive blue 2 reduced neither the UTP- nor the ATP-induced vasoconstriction. ATP 10^–3 mol/l elicited marked additional vasoconstriction after precontraction with UTP 10^–3 mol/l, whereas UTP elicited only a very small additional vasoconstriction when its concentration was doubled from 10^–3 to 2 × 10^–3 mol/l.It is concluded that, in the rabbit basilar artery, the vasoconstrictor response to UTP is mediated by a pyrimidine nucleotide receptor which is distinct from the P₂-purinoceptor, and that the vasoconstrictor response to ATP is mediated by a P₂-receptor which is distinct from the known P₂-subtypes.Send offprint requests to I. v. Kügelgen at the above address     

Periaqueductal gray matter involvement in the muscimol-induced decrease of morphine antinociception

Summary Microinjections of muscimol, a GABA receptor agonist, into the periaqueductal gray matter (PAG) counteracted the antinociceptive effect of morphine in rats, as measured by the tail-flick method. Muscimol's effect was partially reversed by bicuculline.     

Usefulness of the Kohlrausch-Williams-Watts Stretched Exponential Function to Describe Protein Aggregation in Lyophilized Formulations and the Temperature Dependence Near the Glass Transition Temperature

Purpose. We studied the feasibility of using the Kohlrausch-Williams-Watts stretched exponential function (KWW equation) to describe protein aggregation in lyophilized formulations during storage. Parameters representing mean aggregation time (_a) and stretched exponential constant (_a) were calculated according to the KWW equation by assuming that the time required for protein molecules to aggregate () varies because of the fact that protein aggregation occurs at a rate that depends on the degree of protein deformation resulting from stresses created during freeze-drying. The temperature dependence of the parameters near the glass transition temperature was examined to discuss the possibility of predicting protein aggregation by accelerated testing. Methods. Protein aggregation in lyophilized bovine serum -globulin (BGG) formulations containing dextran or methylcellulose, at temperatures ranging from 10 to 80°C, was followed by size-exclusion chromatography. Results. Non-exponential BGG aggregation in lyophilized formulations could be described by the KWW equation. The _a and _a parameters changed abruptly around the NMR relaxation-based critical mobility temperature for formulations containing dextran and methylcellulose. In the glassy state, in contrast, the _a parameter of these formulations exhibited continuous temperature dependence. The parameter , as calculated from _a and _a, reflected differences in values between the two excipients. Conclusions. The results indicate that the parameter _a is reflective of physical changes wihtin lyophilized formulations. Within the temperature range, during which no abrupt changes in _a were observed, knowledge regarding the _aand _a parameters allows the rate of protein aggregation to be predicted. The parameter was found to be useful in comparing the protein aggregation behavior of formulations having different _a and _a values.     

Different effects of vinblastine on the polymerization of isotypically purified tubulins from bovine brain

Vinblastine, a highly successful antitumor drug, targets the tubulin molecule. Tubulin, the subunit protein of microtubules, consists of an - and a -subunit, both of which consist of isotypes encoded by different genes. We have purified three isotypes of bovine brain tubulin, namely, _II, _III and _IV. Microtubule associated protein-2 (MAP2) and Tau-induced assembly of these isotypes were compared in the presence and absence of vinblastine. MAP2-induced assembly of unfractionated tubulin and all the isotypes except _II tubulin was resistant to 1M vinblastine. Vinblastine at low concentrations (<10M) progressively inhibited the assembly of all of the isotypes but the vinblastine concentration required for inhibition of MAP2-induced microtubule assembly was minimal for _II. The tau-induced assembly of unfractionated tubulin and _III were equally sensitive to 1M vinblastine whereas _II and _IV were much more sensitive to vinblastine. The microtubules obtained in the presence of tau from unfractionated tubulin, _II and _IV could be easily aggregated by 20M vinblastine whereas such as aggregation of microtubules obtained from _III and tau required approximatedly 40M vinblastine. Our results suggest that among the tubulin isotypes, _II is the most sensitive to vinblastine in the presence of MAPs while _III is the most resistant and this intrinsic resistance of _III dimers persists in the polymeric form of _III tubulin as well. These results may be relevant to the therapeutic and toxic actions of vinblastine.     

Selective potentiations in opioid analgesia following scopolamine pretreatment

The effects of the muscarinic receptor antagonist scopolamine upon analgesia induced by d-ala-d-leu-enkephalin (DADL), beta-endorphin (BEND) and morphine were examined. While scopolamine (10 mg/kg, IP) significantly potentiated the analgesic responses following DADL (40 g, ICV) and morphine (5 mg/kg, SC) on the jump test, it failed to alter significantly BEND (1 g, ICV) analgesia.     

Differential modulation by muscimol and baclofen on antinociception induced by morphine, β-endorphin,d-Pen2,5-enkephalin and U50,488H administered intracerebroventricularly in the mouse

The present study was designed to investigate the modulatory effects of stimulation of GABA_A and GABA_B receptors at supraspinal sites on antinociception induced by supraspinally administered -, -, -, and -opioid receptor agonists. The effects of the GABA_A and GABA_B receptor agonists, muscimol and baclofen respectively, on the antinociception induced by morphine (a -receptor agonist), -endorphin (an -receptor agonist), D-Pen^2,5-enkephalin (DPDPE, a -receptor agonist) and U50,488H ({trans-3,4-di-chloroN-methyl-N-[2-(1-pyrrolidinyl)cyclohexyl] benzeocetamide}; a -receptor agonist) injected intracerebroventricularly (i.c.v.) were studied. The anti-nociception was assayed using the tail-flick and hot-plate tests. Muscimol at doses of 25–200 ng, administered i.c.v. alone did not affect the latencies of tail-flick and hot-plate thresholds, but attenuated dose-dependently the inhibition of the tail-flick and hot-plate responses induced by i.c.v. administered morphine (2 g), -endorphin (1 g), DPDPE (10 g), and U50,488H (60 g). Baclofen (1.25–10 ng) administered i.c.v. alone did not affect the latencies of the tail-flick and hot-plate responses, but attenuated dose-dependently the inhibition of the tail-flick and hot-plate responses induced by -endorphin and U50,488H, without affecting morphine-or DPDPE-induced responses. Our results indicate that activation of GABA_A receptors at the supraspinal sites by i.c.v. injection of muscimol antagonizes antinociception induced by supraspinally administered -, -, -, and -opioid receptor agonists. On the other hand, activation of GABA_B receptors at supraspinal sites by i.c.v. baclofen antagonizes antinociception induced by i.c.v. administered - and -opioid agonists, but not - or -opioid agonists.     

EEG effects of subcutaneous and intracerebroventricular injections of arginine vasopressin in the rat

Several studies have suggested that arginine vasopressin (AVP) may act centrally as a neurohormone or neuromodulator to produce electrophysiological and behavioral effects. However, there are few reports of EEG effects of AVP in unanesthetized, behaving animals. In the present study the EEG effects of behaviorally relevant subcutaneous (SC) doses of AVP (6 g/kg) known to raise blood pressure were compared to behaviorally relevant intracerebroventricular (ICV) doses (0.1–1.0 ng) and multiple toxic ICV doses (1.0 g) of AVP. Central injections of toxic doses of AVP produced behavioral arrest, bodily barrel rolling, and EEG slowing, but did not induce electrographic signs of seizure activity. Comparison of the spectral characteristics of the EEG revealed some similarities in the distribution of power between SC and the 1.0 ng ICV dose; whereas ICV doses of 0.1 and 0.5 ng produced power distributions that were different from those seen following saline or SC doses of AVP. The similarities in EEG activity between SC injections and the 1.0 ng ICV dose suggest a common brain state may be induced by the two routes of administration in those dose ranges.     

On the mechanism of the decrease in cerebellar cyclic GMP content elicited by opiate receptor agonists

Summary Morphine, dextromoramide (4 mol/kg i.p.) and vimonol R₂ (17 mol/kg i.p.) in analgesic doses (28 to 112 mol/kg i.p.) decreased 3,5-cyclic guanosine monophosphate (cGMP) in rat cerebellar cortex; morphine also decreased the cGMP content in deep cerebellar nuclei. Intrastriatal but not intracerebellar injections of morphine (20 g) decreased cerebellar cGMP content. Naltrexone, an opiate receptor antagonist, but not apomorphine, a dopaminergic receptor agonist, blocked the effect of morphine on cerebellar cGMP. Pretreatment with 3-acetylpyridine (3-AP) which destroys the climbing fibers, failed to antagonize the effect of morphine on cerebellar cGMP. These results suggest that activation of opiate receptors in striatum decreases cerebellar cGMP content presumably by reducing activity in the mossy fiber excitatory input to cerebellum.     

Effects of intrathecal or intracerebroventricular pretreatment with pertussis toxin on antinociception induced by β-endorphin or morphine administered intracerebroventricularly in mice

We have previously demonstrated that -endorphin and morphine, when administered supraspinally, produce antinociception by activating different descending pain inhibitory systems in both rats and mice. However, the signal transduction mechanisms involved in the descending pain-inhibitory systems that are activated by -endorphin and morphine administered intracerebroventricularly (i.c.v.) have not been characterized. Therefore, in the present study, the effects of intrathecal (i.t.) and i.c.v. pretreatments with pertussis toxin (PTX) on antinociception induced by -endorphin or by morphine administered i.c.v. were studied in ICR mice. Antinociception was assessed by the tail-flick assay and by the hotplate assay. Intrathecal pretreatment with PTX (0.5 g) for 6 days effectively reduced the inhibition of the tail-flick response induced by -endorphin (1 g) or by morphine (1 g) administered i.c.v. However, i.t. pretreatment with PTX was not effective in reducing the inhibition of the hot-plate response induced by -endorphin or by morphine administered i.c.v. Intracerebroventricular pretreatment with PTX (0.5 g) for 6 days effectively reduced the inhibition of the tail-flick and hot-plate responses induced by morphine (1 g), but not that induced by -endorphin (1 g), administered i.cv. Our results suggest that there are PTX-sensitive G proteins coupled to the spinal descending pain inhibitory systems that are activated by -endorphin and morphine administered i.c.v. At a supraspinal level, i.cv. morphine- but not -endorphin-induced antinociception is mediated by PTX-sensitive G proteins. Correspondence to: Hong W. Suh at the above address