Neuropharmacology
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High affinity choline transport, choline acetyltransferase (ChAT) and acetylcholinesterase (AChE) were assessed in rats after acute and chronic administration of the AChE inhibitor Huperzine A. Acute treatment: Forty-five min after a single injection of Huperzine A (0.5 mg/kg i.p.) the activity of AChE was significantly decreased by 15-30% in hippocampus, striatum and septum. The activity of ChAT was not altered. ⋯ The activity of ChAT was not affected in any region of the brain studied. Thus, acute or chronic treatment with Huperzine A: did not alter ChAT; reduced high affinity choline transport in the hippocampus in a transient manner; and had a longer duration of action as an AChE inhibitor than physostigmine. Moreover, tolerance to low-toxicity doses of Huperzine A was minimal, contrary to what has been observed with other inhibitors of AChE.
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Comparative Study
Spinal antinociception: comparison of a dermorphin tetrapeptide analogue, [D-arginine2, sarcosine4]-dermorphin (1-4) and morphine in rats.
Intracerebroventricular injections of [D-arginine2, sarcosine4]-dermorphin (1-4) (DAS-DER 1-4) and morphine produced a dose-dependent inhibition of the tail-flick response to thermal stimulation. The ED50 value for each drug was 3.23 (1.35-7.73) nmol/rat and 32.0 (13.3-76.6) nmol/rat, respectively. When injected into the spinal subarachnoid space, the ED50 value was 0.035 (0.015-0.086) nmol/rat for the tetrapeptide and 11.9 (5.7-25.2) nmol/rat for morphine, respectively. ⋯ After spinal transection, the antinociceptive potency of systemically-administered morphine was significantly reduced while that of DAS-DER 1-4 was unaltered. The activity of DAS-DER 1-4 and morphine was also reversed by naloxone in spinal animals. It is concluded that DAS-DER 1-4, a dermorphin analogue, has a minor supraspinal action but acts mainly at the level of the spinal cord, in contrast to the action of morphine.
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Comparative Study
Comparison of isomers of ketamine on catalepsy in the rat and electrical activity of the brain and behavior in the cat.
The present study compared the relative potency and efficacy of the two isomers of ketamine on the duration of catalepsy (loss of righting reflex) in female rats and on the behavior and electroencephalogram of cats. In the rat, at small doses, the S(+) isomer was more potent than the R(-) isomer or racemic ketamine, while at larger doses, the S(+) isomer and the racemate were equipotent and the R(-) isomer was significantly less potent. Tolerance developed rapidly to the effects of either isomer and both were equally cross-tolerant to racemic ketamine. ⋯ In cats, there was a parallel time course and progression of behavioral and electroencephalographic states in response to equal total doses of either racemic ketamine, an artificial 50:50 mixture of S(+) and R(-) isomers, or the S(+) isomer alone; approximately equivalent effects required twice the dose of the R(-) isomer. It is concluded that there is a common site of action for the two isomers, but there is also a stereospecific difference in potency, as regards the induction of catalepsy in the rat and behavioral and electroencephalographic effects in the cat. Stereospecificity was not apparent in the development of tolerance, cross-tolerance or the augmentation of the response to morphine.
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In the rat, the continuous intrathecal (i.t.) infusion of clonidine (0.4 microgram/hr) significantly increased the tail-flick latency (TF) and the threshold for paw pressure (PP) withdrawal for 5 days and decreased the systolic blood pressure (up to 24 mm Hg) for 7 days. The antinociceptive effect of continuous intrathecal infusion of clonidine (0.4 microgram/hr) in the tail flick and paw pressure tests was not attenuated in rats that were tolerant to morphine. The acute intrathecal administration of clonidine (2.7 micrograms) and morphine (1.0 microgram) resulted in a synergistic interaction in the tail-flick and paw pressure tests. ⋯ However, intrathecal infusion together yielded peak tail-flick and paw pressure responses comparable to that of 0.4 microgram/hr clonidine alone, without affecting systolic blood pressure. No delay in the onset of tolerance to the analgesic effect was observed with the combination as compared with clonidine (0.4 microgram/hr) alone. The data indicate that clonidine-induced spinal analgesia is independent of endogenous opioid systems linked to mu-receptors in the spinal cord, and that optimization of spinal analgesia (e.g. synergism) can be achieved during continuous intrathecal infusion without affecting cardiovascular activity.
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Data from this laboratory on ketamine-induced analgesia and catalepsy in rats revealed that factors other than dose modified the difference in the latency of the tail flick response (TFLD), a measure of analgesia, and the duration of the loss of the righting reflex (DLRR), a measure of catalepsy. Untreated female rats showed a longer latency than males in their response to a noxious stimulus at midnight, but not at noon. Females also showed a longer loss of righting reflex response to ketamine than did males, whether at noon or midnight; the loss of righting reflex at night was augmented in both. ⋯ There was a 3-fold increase in the latency of the tail flick response and loss of righting reflex during the winter, as compared with summer, for females treated with ketamine; males showed a similar variation in the loss of righting reflex. Since analgesia is produced by both melatonin and ketamine, and since ketamine appears to share opiate receptors with an endogenous ligand, beta-endorphin, a role was sought for the pineal and melatonin in the variation of responsiveness to ketamine. Pinealectomized rats failed to show augmentation of the loss of righting reflex induced by ketamine at night and mice showed a seasonal variation in the analgesia induced by melatonin.(ABSTRACT TRUNCATED AT 250 WORDS)