Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0085632 (apathy)
4,089 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Three different syndromes produced by congeners of morphine have been identified in the nondependent chronic spinal dog. These syndromes have been attributed to interaction of agonists with three distinguishable receptors (mu, kappa and sigma). Morphine is the prototype agonist for the mu receptor, ketocyclazocine for the kappa receptor and SKF-10,047 for the sigma receptor. The morphine syndrome (mu) in the dog is characterized by miosis, bradycardia, hypothermia, a general depression of the nociceptive responses and indifference to environmental stimuli. Ketocyclazocine (kappa) constricts pupils, depresses the flexor reflex and produces sedation but does not markedly alter pulse rate or the skin twitch reflex. SKF-10,047 (sigma), in contrast to morphine and ketocyclazocine, causes mydriasis, tachypnea, tachycardia and mania. The effects of these three drugs can be antagonized by the pure antagonist naltrexone, indicating that they are agonists. Further, chronic administration of morphine, ketocyclazocine and SKF-10,047 induces tolerance to their agonistic effects. Morphine suppresses abstinence in morphine-dependent dogs while ketocyclazocine does not. Ketocyclazocine at best precipitated only a liminal abstinence syndrome in the morphine-dependent dog, indicating that it had little affinity for the morphine receptor. Ketocyclazocine thus appears to be a selective agonist at the kappa receptor. Further, it has been shown that buprenorphine is a partial agonist of the mu type which both suppressed and precipitated abstinence in the morphine-dependent dog while morphine and propoxyphene are stronger agonists. Apomorphine and SKF-10,047 produce similar pharmacologic effects suggesting that sigma activity may involve a dopaminergic mechanism.
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PMID:The effects of morphine- and nalorphine- like drugs in the nondependent and morphine-dependent chronic spinal dog. 94 47

The aim of this work was to study the role that the noradrenergic system could play in the mechanism of production of the behaviors evoked by parenteral injection of apomorphine and amphetamine in adult cats. Ten cats were injected s.c. with 2 mg/kg of apomorphine and 2.5 mg/kg of amphetamine in separate sessions. The behaviors were recorded, until control conditions were again attained. In a second stage, disulfiram was administered ip., followed by apomorphine and amphetamine in the same doses as cited above. The effects on behaviors produced by disulfiram and those of apomorphine and amphetamine were recorded by three independent observers. Comparisons of the pre- and post-disulfiram behavioral results were analyzed with the help of the non-parametric Wilcoxon signed rank test. In another group of ten cats a similar procedure was carried on employing the alpha and beta noradrenergic blocking agents, phenoxybenzamine and propranolol. The noradrenergic blocking drugs, especially disulfiram and phenoxybenzamine produced by themselves a decrease in motility, in alertness and an increase in indifference and inappetence. Apomorphine and amphetamine administered after the blocking drugs showed slight behavioural modifications, reflection most of them the changes produced by the three blocking drugs. It is concluded that probably the nor-adrenergic system could be involved in the hypomotility elicited by amphetamine. NA is not involved in the induction of the other behaviors evoked by apomorphine and amphetamine.
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PMID:Effects of disulfiram, phenoxybenzamine and propranolol on the behaviors evoked by apomorphine and amphetamine in adult cats. 151 35

The behavioral effects of d-amphetamine and apomorphine administration were studied in 17 adult cats. The doses of amphetamine administered were 0.1, 0.5, 1.0 and 5.0 mg/kg; those of apomorphine, 0.1, 0.5, 1.0 and 2.0 mg/kg. These two drugs evoked in the same animal marked differences in behavioral responses. Amphetamine induced a dose-dependent hypomotility, which was marked with the higher doses. In addition, rhythmic, bilateral slow movements of the head as a mode of stereotypy, indifference to the environment and dose-dependent increase in respiratory rate. Apomorphine elicited limb flicking, dose-dependent hypermotility and increase in olfactory behavior, the last two reactions with stereotypy characteristics. The animals appeared as if being scared, hyperreacting to sudden stimuli and showing total indifference to the surrounding environment. There were marked differences in behavioral responses evoked by these two agonists of the catecholaminergic system. These data do not conform with the behavioral reactions reported in the rat by other investigators. The disagreement with other communications is probably due to differences in reactivity of the species employed. The processes involved in the diversity of the behavioral responses of the cat to the administration of amphetamine and apomorphine have not been delucidated.
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PMID:Comparative study of the behavioral changes evoked by d-amphetamine and apomorphine in adult cats. Dose-response relationship. 278 Jul 70

The aim of the present work was to study the behavioral effects elicited in adult cats by the selective D1 agonist, SKF 38393, and the D2 agonist, LY 171555, comparing their effects with those evoked by apomorphine. In 10 adult cats, 0.5, 1.0, 4.0, and 8.0 mg/kg IP of SKF 38393 were administered at random. A dose-response effect was observed related to alertness, indifference, and locomotion. The overall effect of SKF 38393 was inhibitory. To the same 10 animals, LY 171555 in doses of 0.25, 0.5, and 1.0 mg/kg were injected IP. This drug had an excitatory and more complex effect than what was observed with the D1 agonist. Increases in locomotion, in alertness, indifference, fear, olfaction, pupillary dilation, hallucination, limb flicking, and head shaking were recorded. Apomorphine given to the same cats, in a dose equimolar to 1.0 mg/kg of LY 171555, elicited behaviors that resembled those elicited by the latter drug, but of a lesser intensity and duration. The interval between the different treatments was approximately 2 months. These results show clearly that the D2 receptor is the main dopaminergic receptor involved in the mechanism of production of most of the behavioral effects produced by some of the dopaminergic agonist drugs like apomorphine.
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PMID:Behavioral effects evoked by SKF 38393 and LY 171555 in adult cats. 761 Jan 53

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