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:C0011570 (depression)
172,036 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1 The inhibitory effect of gallamine (1.1 muM-1.1 mM) on negative inotropic responses to acetylcholine (ACh) or carbachol (CCh) was investigated in isolated electrically stimulated atria of the guinea-pig. Gallamine caused parallel rightward shifts of the dose-response curves to the agonists, with no depression of the maximal response. 2 Gallamine (0.11 - 1.1 mM) produced a greater degree of antagnism towards CCh than towards ACh. With either agonist, the degree of antagonism produced by gallamine in high concentrations was less than that expected for a competitive antagonist.. 3 Similar findings were made when either negative inotropic or chronotropic responses were recorded in spontaneously beating guinea-pig atria. The inhibitory effect of gallamine against the negative inotropic response to cholinomimetics in electrically stimulated atria was not altered either in the presence of propranol (17 muM) or in atria obtained from guinea-pigs pretreated with diisopropylphosphorofluoridate (DEP) 12.5 mumol/kg, in divided doses over 3 days). 4 When ACh was used as the agonist, combination of gallamine with atropine (0.05-0.4 muM) produced dose-ratios which were less than expected for combination of two competitive antagonists. The same phenomenon was observed in atria obtained from guinea-pigs pretreated with DFP. 5 It is suggested that the antagonism produced by gallamine is a type of non-competitive inhibition, which has been termed "metaffinoid antagonism". An antagonist of this type allosterically alters the affinity of the agonist for its binding site, rather than changing the effectiveness of the agonist-receptor interaction.
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PMID:The inhibitory effect of gallamine on muscarinic receptors. 99 May 87

Ganglionic effects of the histamine H2 receptor antagonists cimetidine, ranitidine and 1-nitro-2-(2-propynylamino)-2-(2-[dimethylaminomethyl-2-furanyl) methylthiol]-ethylamino)ethylene (ORF 17578) were compared in the isolated superior cervical ganglion of the rat. Extracellular recording of compound action potentials showed that the drugs caused concentration-dependent inhibition of ganglionic transmission, as indicated by depression of the postganglionic compound action potential. Cimetidine-induced inhibition of ganglionic transmission was stimulus frequency-dependent. Increasing the Ca2+ from 2.2 to 4.4 mM in the bathing solution did not significantly affect the inhibitory actions of these agents. In the series with ranitidine, pretreatment with DFP to inhibit acetylcholinesterase similarly had no significant effect on the depression of the compound action potential by ranitidine. All three agents had little or no effect on nerve conduction in isolated vagi of the rat. The results indicate that all three histamine H2 receptor blockers inhibited ganglionic transmission, but only in large concentrations. The results also suggest that the blocking effect of these drugs was unrelated to their reported anticholinesterase action or to blockade of histamine H2 receptors, which are believed to exist on the presynaptic membrane. It is suggested that the ganglion effect may be due to the action of these agents on the acetylcholine receptor-ion channel complex in the postsynaptic membrane.
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PMID:A comparative study of the actions of histamine H2 receptor antagonists on transmission in the isolated superior cervical ganglion of the rat. 197 Jan 32

In high spinal cats, the acute time-dependent changes of both the activity of spinal reflex pathways and the activity of three different esterases (acetylcholinesterase, carboxylesterase and neurotoxicant target enzyme) in the spinal cord were investigated after intravenous application of the organophosphorus compound di-isopropyl phosphofluoridate (DFP). There is no general depression of spinal reflexes by DFP. While the recurrent inhibition is completely abolished for a long time and the reflexes to a flexor (PBSt) are depressed but with a shorter recovery time, the reflexes to an extensor (GS) are distinctly less depressed or even facilitated. Reflex pathways from skin afferents to motoneurones did not react in a uniform way to DFP, e.g. inhibitory nociceptive pathways were less affected than excitatory ones. Esterase activities were heavily depressed and recovered with different time courses. The acute DFP action cannot be explained by a uniform intoxication of all spinal functions but probably emerges from a differential action on different interneuronal systems.
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PMID:Influence of the organophosphorus compound DFP on inhibitory motor systems and esterase activity in the spinal cord of cats. 271 Apr 27

The organophosphorus compounds diisopropylphosphorofluoridate (DFP) and isopropylmethylphosphonofluoridate (sarin) depressed the monosynaptic reflex (MSR) in spinal cords from 7- to 9-day-old male rats. The concentrations of DFP and sarin which depressed the MSR by nearly 50% were 100 microM and 100 nM, respectively. Simultaneous superfusion of the cords with thyrotropin-releasing hormone (TRH) with either DFP or sarin resulted in a reversal of the depression. The depression caused by DFP was reversed to 95% of control by 100 nM TRH whereas similar reversal of sarin-induced depression required a 10-fold greater concentration of TRH. The potentiating effect of TRH was not affected by atropine even at a high concentration (1 microM) although atropine easily reversed organophosphorus-induced depression of the MSR. It appears that reversal of organophosphorus-induced depression by TRH might occur through a noncholinergic, TRH-sensitive receptor mechanism and may be unrelated to acetylcholinesterase activity. This action represents a possible utility of TRH as an adjunct in organophosphorus toxicity.
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PMID:Segmental synaptic depression caused by diisopropylphosphorofluoridate and sarin is reversed by thyrotropin-releasing hormone in the neonatal rat spinal cord. 284 64

The present study demonstrates that the reversible and irreversible anti-ChE agents have direct actions on the nicotinic acetylcholine receptor-ionic channel (AChR) and on the locust glutamatergic neuromuscular junction. In addition, the prophylaxis of lethality of organophosphorus anti-ChE compounds was studied. The lethality of VX and sarin was diminished when the rats were pretreated with physostigmine and atropine. The effectiveness of this protection, however, was markedly increased when a ganglionic blocker, either mecamylamine or chlorisondamine, was added, such that all the animals survived after receiving four times a lethal dose of VX. Pretreated animals receiving sarin showed significant recovery of morphological and functional properties of the neuromuscular junction as compared to the damage of structures from animals without pretreatment. Blood ChE inhibition was slightly decreased while brain and muscle AChE levels were significantly recovered (from 98 and 70% to 56 and 32%, respectively) by the pretreatment. This effect may partially explain the protection given by physostigmine but not that afforded by addition of a non-anti-ChE agent. Physostigmine, at concentrations greater than 20 microM, showed both a marked depression of the peak amplitudes of the endplate current (EPC) and a shortening of the decay time constants tau EPC. These effects were mostly due to a direct drug interaction with the nicotinic AChR blocking the ionic channel in its open conformation. Single-channel recordings showed that physostigmine decreases conductance and open times of the channels activated in the presence of ACh and in addition has an agonistic property on the nicotinic AChR. VX, on the other hand, only shortened the open times of ACh-activated channels without affecting the conductance. No agonist property was detected with VX. On glutamatergic synapses, the ChE inhibitors generated spontaneous firing of end-plate potentials (EPPs) and action potentials (APs). This effect was blocked in the presence of low external Ca2+ concentration or tetrodotoxin. It seems that the spontaneous EPP and AP firing resulted from an increased transmitter release induced by an increase in Na+ influx at the presynpatic nerve terminal. Physostigmine and some irreversible ChE inhibitors (VX and DFP) also blocked the postjunctional glutamate receptors. Similar to the nicotinic AChR, this effect was mostly related to a blockade of the open channels. In conclusion, the present studies showed significant protection of rats by physostigmine in combination with some ganglionic antagonists against lethality by organophosphate agents.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Multiple actions of anticholinesterase agents on chemosensitive synapses: molecular basis for prophylaxis and treatment of organophosphate poisoning. 286 60

We have examined the sleep profile of the Flinders Sensitive Line (FSL) of rats, which were selectively bred for supersensitive responsivity to an acetylcholinesterase inhibitor (DFP). These animals have an increased density of muscarinic receptors in striatum and hippocampus and display a number of behavioral and neuroendocrine characteristics that may represent a rodent analogue of clinical depression. A continuous 48-hour sleep EEG recording was obtained. Compared to control rats (the Flinders Resistant Line), the FSL rats had selectively more rapid-eye-movement (REM) sleep as a percentage of total sleep time. In addition, the REM sleep latency was significantly shorter and the REM-REM cycle length was significantly faster in the FSL than in the FRL strain. The two strains did not differ in total sleep time, drowsy sleep, or slow-wave sleep. The increased REM sleep in the FSL rats is consistent with the amassed evidence that cholinergic mechanisms selectively promote REM sleep, and suggests that the FSL rats may be useful in understanding the mechanism responsible for short REM latency in depression and narcolepsy.
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PMID:Increased REM sleep in rats selectively bred for cholinergic hyperactivity. 325 94

Chickens given 15 to 45 ppm dietary corticosterone 1 day prior to and 5 days following subcutaneous administration of 1 mg/kg 0,0-diisopropyl phosphorofluoridate (DFP) were not protected from either clinical delayed neuropathy, depression of neurotoxic esterase activity or advanced degenerative peripheral nerve myelinated fiber damage.
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PMID:Absence of a protective effect of corticosterone on 0-0-diisopropyl phosphorofluoridate (DFP) induced delayed neurotoxicity in chickens. 387 40

Activation of purified urinary inactive kallikrein by an extract from the rat kidney cortex was investigated. The extract produced a dose-dependent activation of the inactive kallikrein and the optimum pH for this activation was 5.0. Marked depression of the activation was observed when the extract was pre-incubated with E-64, p-CMB and iodoacetate, but not with DFP, PMSF or pepstatin A. The molecular weight of the inactive kallikrein (Mr 44,000) was reduced to 38,000 by treatment with the extract, this molecular weight value being identical with that of urinary active kallikrein. These results indicate that the rat kidney cortex contains a protease catalyzing conversion of urinary inactive kallikrein into its active form, and that the protease has properties compatible with those of a thiol protease, but not of trypsin which has been used as a tool for the activation of urinary inactive kallikrein. The thiol protease is probably one of regulators of the kallikrein-kinin system in the kidney.
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PMID:Activation of urinary inactive kallikrein by an extract from the rat kidney cortex. 389 54

Two lines of rats that were selectively bred to vary in their sensitivity to the anticholinesterase DFP exhibited different degrees of behavioral depression after injection of the muscarinic agonist arecoline (2 mg/kg). The line of rats with increased behavioral depression after arecoline (the Flinders sensitive or S-line) also exhibited a greater reduction of activity in an open field chamber following exposure to foot shock and greater immobility in a forced swim test than the line of rats with reduced behavioral depression after arecoline (the Flinders resistant or R-line). In addition, the Flinders S-line exhibited a better memory on an inhibitory avoidance task. These differences were not related to differences in shock sensitivity between the lines. Thus, the Flinders S-line of rats reacts to both mild stressors and a cholinergic agonist with greater behavioral depression and may, therefore, be a useful new animal model of human depressive disorders, one that focuses on cholinergic supersensitivity.
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PMID:Selective breeding for increased cholinergic function: development of a new animal model of depression. 394

Development of the neuromuscular junction on differentiating muscle was investigated in the regenerating limb of the newt Triturus. Motor end-plate formation begins when vesicle-filled axon terminations approach differentiating muscle cells that have reached the stage of a multinucleate cell containing myofibrils. Slight ridges or elevations occur on the muscle surface, and there is an increase in density of the cytoplasm immediately beneath the plasma membrane of the elevation. The axon becomes more closely approximated to the muscle cell and comes to lie in a shallow depression or gutter on the surface of the muscle. The surface ridges increase in length and constrict at their bases to form junctional folds. In the axon terminal, focal accumulations of vesicles are found where the axon contour projects slightly opposite the secondary synaptic clefts. Cholinesterase activity in the developing junctions was demonstrated by the thiolacetic acid-lead nitrate method. Enzymatic activity is not found on intercellular nerve fibers or the muscle surface prior to close approximation of axon endings and muscle. Eserine- and DFP-sensitive activity appears concurrently with morphological differentiation. Activity occurs in membranous tubulovesicles in the sarcoplasm subjacent to the neuromuscular junction and in association with the sarcolemma. The largest reaction deposits occur at the tips of the emerging junctional folds. Smaller and less numerous localizations occur on the axon membrane and within the axoplasm. It is concluded from these studies that the nerve endings have an inductive effect on both the morphological and chemical specializations of the neuromuscular junction.
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PMID:Development of the neuromuscular junction. I. Cytological and cytochemical studies on the neuromuscular junction of differentiating muscle in the regenerating limb of the newt Triturus. 579 31


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