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)

The effect of 1-12 days of electrical stimulation (10 Hz) on the ability to phosphorylate the P-light chain of myosin was studied in rabbit tibialis anterior muscle. Myosin phosphorylation was induced by exposure of the stimulated muscle and that of the contralateral leg to a single conditioning stimulus train (5 Hz) for 25 s via the motor nerve. Isometric tension was measured as were the myosin light chain composition and the activities of the enzymes responsible for phosphorylation and dephosphorylation. A computer simulation of the potential effect of a stimulation-induced disruption of Ca2+ metabolism on phosphorylation was also performed. Chronic stimulation for as little as 1 day eliminated light chain phosphorylation and reduced the myosin light chain kinase activity by approximately 36%. Conversely, phosphatase activity and light chain composition were unaffected. The model demonstrated that a slight depression in the magnitude of the Ca2+ transient could potentially attenuate phosphorylation. The data suggest that phosphorylation of myosin is extremely sensitive to prolonged muscle activity. Furthermore, it appears more likely that this sensitivity is related to regulation of intracellular free Ca2+ than to the other elements of the calmodulin-dependent system for myosin phosphorylation examined.
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PMID:Chronic low frequency stimulation reduces myosin phosphorylation in rabbit fast twitch muscle. 133 Feb 59

The distribution of inositol 1,4,5-trisphosphate (InsP3) 3-kinase was studied in the adult rat brain, using polyclonal antibodies raised against the purified 50,000-Da rat brain enzyme by immunohistochemistry and Western blot, in addition to enzymatic assay. Immunohistochemically, the enzyme was detected in neurons, where it was localized in the dendrites and at the periphery of the cell bodies. Using selective toxin lesions, the highest enzyme levels were found in the dendrites of hippocampal CA1 pyramidal cells and in neurons in the dorsal portion of the lateral septum, regions both involved in long-term potentiation; and in the dendrites of Purkinje cell subpopulations in the cerebellum, a region involved in long-term depression. High levels were found in neurons in the cortex; in the anterior olfactory nucleus; in the striatum (caudate, putamen, olfactory tubercle, Calleja islets and accumbens); in the central nucleus of the amygdala; in the hippocampal dentate gyrus and in the subiculum. The enzyme was not detected in other brain regions. By Western blot, a 50,000-Da immunoreactive band was present in the cortex, caudate-putamen and cerebellum. This band was most highly stained in the hippocampus. InsP3 3-kinase activity, stimulated by calcium/calmodulin, corresponded to 6172-2638 pmol of InsP4 produced/min/mg protein in the hippocampus followed by frontal and parietotemporal cortex and cerebellum. This activity was below 400 in the brainstem and spinal cord.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Inositol 1,4,5-trisphosphate 3-kinase distribution in the rat brain. High levels in the hippocampal CA1 pyramidal and cerebellar Purkinje cells suggest its involvement in some memory processes. 164 40

The modulation of Ca2+ currents by the excitatory neurotransmitter glutamate and its analogs was investigated in hippocampal neurons in culture. In the presence of glutamate receptor-gated ion channel antagonists, all of the analogs tested caused either a small reversible depression or had no effect on the Ca2+ current. However, in neurons dialyzed with GTP gamma S, quisqualate and glutamate but not NMDA, kainate, AMPA, or L-APB caused marked and irreversible depressions of the Ca2+ current. This inhibition was only observed if Ca2+ was present in either the internal or external medium. Intracellular H-7, staurosporine, IP3, cAMP, cGMP, or calmodulin inhibitors failed to prevent the quisqualate-induced Ca2+ current inhibition. These observations are consistent with an interaction between a G protein-coupled glutamate receptor and Ca2+ channels.
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PMID:Quisqualate receptor-mediated depression of calcium currents in hippocampal neurons. 197 15

Focal brain injury in mice induced c-fos mRNA and protein in neurons throughout the damaged neocortex, including the piriform and the entorhinal cortices, as well as in nonneural brain cells (e.g., glia, pia, ependyma). The pattern of c-fos induction after injury suggested that injury led to spreading depression which then led to c-fos induction in neurons. Human neurons in the temporal cortex and hippocampus also showed c-fos protein induction after neurosurgical trauma. The c-fos mRNA and protein induction in mouse neurons was prevented by the noncompetitive NMDA antagonist ketamine but only partially inhibited by the voltage-dependent calcium channel antagonist nifedipine and the calmodulin antagonist trifluoperazine. The c-fos protein induction in nonneural brain cells after injury was not affected by these drugs. Thus, induction of c-fos in neocortical neurons after focal brain injury is partly NMDA receptor mediated.
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PMID:Induction of c-fos mRNA and protein in neurons and glia after traumatic brain injury: pharmacological characterization. 210 45

We evaluated several doses of cis-4-(phosphonomethyl)-2-piperidine-carboxylic acid (CGS-19755), a potent competitive N-methyl-D-aspartate (NMDA) receptor antagonist, systemically administered either before or after 20 to 30 minutes of global ischemia in rats. We measured outcome by mortality, histological damage by light microscopy, and learning ability on an eight-arm maze, and determined the drug's mechanism of action by an immunohistochemical assay of calcium-calmodulin binding. High-dose treatment begun prior to ischemia resulted in reduced cellular damage in severely ischemic hippocampal tissue, but also caused high mortality due to respiratory depression. Treatment begun 30 minutes after ischemia resulted in little histological protection but significantly improved learning ability when tested 1 month after ischemia, and did not increase mortality. Furthermore, CGS-19755, 10 mg/kg intraperitoneally, begun either before or after ischemia substantially reduced calcium influx into ischemic neurons as evidenced by reduced calcium-calmodulin binding. We conclude that CGS-19755 prevents calcium entry into ischemic neurons and may be effective therapy for very acute cerebral ischemia.
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PMID:CGS-19755, a competitive NMDA receptor antagonist, reduces calcium-calmodulin binding and improves outcome after global cerebral ischemia. 216 37

The participation of the adenylate cyclase system in the short-lived changes in the efficiency of synaptic transmission of a functionally identified synapse of the edible snail has been investigated. It was established that imidazole (a phosphodiesterase activator) in a concentration of 5 mM and tolbutamide (an inhibitor of cAMP-dependent phosphorylation) in a concentration of 2 mM do not alter the rate of the depression of EPSPs which is elicited by rhythmic stimulation at a frequency of 0.1 Hz, and do not block heterosynaptic facilitation. At the same time, both of these substances decrease the amplitude of EPSPs. The possibility of the modulation of the efficiency of synaptic transmission through the adenylate cyclase system is discussed.
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PMID:Role of cyclic adenosine monophosphate in simple forms of plasticity in the edible snail. 217 Aug 58

Stopped-flow fluorescence kinetic measurements, circular dichroism (CD), and 1H nuclear magnetic resonance (NMR) spectroscopy at 360 MHz have been used to study the interaction of the calcium-channel blocker and calmodulin antagonist bepridil with cardiac troponin C (cTnC) in the presence of calcium. The kinetic data show that bepridil reduces the rate of calcium release only from the low affinity, calcium-specific site and not from the two high affinity calcium/magnesium sites. CD measurements indicate that drug binding leads to a small increase in the alpha-helical content of the complex. 1H NMR shows that the protein binds one equivalent of bepridil, with a dissociation constant of approximately 20 microM, only when the low affinity calcium site is occupied. Exchange is fast or intermediate on the chemical shift time scale. Drug binding is shown to be largely localized in the N-terminal domain, containing the low affinity calcium site, by observing the shifting and broadening of several resonances associated with that domain. These include assigned aromatic signals together with methionyl and other methyl signals. Observation of intermolecular nuclear Overhauser effects was precluded by extensive spectral overlap. Consideration of the data from the three techniques permitted a model of the bepridil-cTnC complex to be constructed, using the model of cTnC derived from the x-ray structure of calmodulin (MacLachlan L. K., Reid, D. G., and Carter, N. (1990) J. Biol. Chem. 265, 9754-9763). Binding of bepridil to a prominent hydrophobic depression in the N-terminal domain can be invoked to explain many of the induced changes in the spectral and kinetic properties of the protein. The implications of the model for the calcium sensitizing action of bepridil are discussed.
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PMID:Binding of a calcium sensitizer, bepridil, to cardiac troponin C. A fluorescence stopped-flow kinetic, circular dichroism, and proton nuclear magnetic resonance study. 235 72

We have reported in the preceding paper that the treatment of plateau phase mouse EMT6 tumour cells with a combination of hyperthermia (HT; 44 degrees C) and trifluoperazine (TFP; 30 micrograms ml-1; an inhibitor of calmodulin) greatly enhances the cytotoxicity of the antitumour drug belomycin (BLM). The cytotoxic action of BLM is thought to arise from the induction of DNA damage in a manner which reflects chromatin accessibility. Thus we have studied the effects of the two modifiers (HT and TFP) on chromatin structure and BLM-induced DNA damage. Co-treatment of cells with HT and TFP altered chromatin organisation by the formation and slow resolution of new DNA attachment sites at the nuclear matrix. HT increased drug-induced DNA damage (strand breaks and alkali-labile lesions) by the general depression of repair rather than through the generation of new sites for drug action. TFP produced a more discrete block in the repair of alkali-labile lesions in DNA. Both processes appear to occur for the combination of BLM, HT and TFP, and we propose that the novel chromatin configuration permits the accumulation of potentially lethal DNA strand breaks. Our study indicates the potential value of chromatin/DNA repair modifying regimens for overcoming the poor responsiveness of some tumour cells to chemotherapeutic drugs and provides a rational basis for the use of calmodulin inhibitors in thermochemotherapy.
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PMID:Interaction of bleomycin, hyperthermia and a calmodulin inhibitor (trifluoperazine) in mouse tumour cells: II. DNA damage, repair and chromatin changes. 241 59

Ca2+ pump activity of skeletal muscle microsomes containing fragments of sarcoplasmic reticulum was examined in rats 8 wk after the induction of chronic diabetes by an intravenous injection of streptozotocin (65 mg/kg). In comparison with the control values, both ATP-dependent Ca2+ uptake and Ca2+-stimulated ATPase activities were increased in the microsomal fraction from diabetic rats. These changes were seen as early as 7 days after streptozotocin injection and were apparent at various times of incubation (1-10 min) as well as at different concentrations of free Ca2+ (10(-7)-5 X 10(-5) M Ca2+). Insulin administration to diabetic animals for 2 wk reversed Ca2+ uptake and ATPase activities to control levels. The increase in microsomal ATPase activity of the diabetic preparation due to cAMP-dependent protein kinase or calmodulin was greater than in the control microsomes and the depression by a specific inhibitor of protein kinase, but not of calmodulin, was greater in diabetic muscle. The enhanced Ca2+ pump activity was associated with altered phospholipid composition and protein profile of the diabetic preparations. The rate of Ca2+ release from microsomal vesicles was unaffected by the diabetic condition. Isometric contractile force development as well as positive dF/dt and negative dF/dt of the skeletal muscle from diabetic animals were higher at different pulse strengths (0.5-100 V) and at different Ca2+ concentrations (0.25-2.5 mM). These results suggest that diabetes is associated with enhanced sarcoplasmic reticular Ca2+ pump activity, and this may account for the hyperfunction of skeletal muscle in this disease.
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PMID:Calcium pump activity of sarcoplasmic reticulum in diabetic rat skeletal muscle. 243 Apr 66

Effects of calmidazolium (R 24571) and chlorpromazine on the delayed potassium outward current in the somatic membrane were studied on nonidentified intracellularly perfused neurons of the snail Helix pomatia. Extracellular application of these substance evoked depression of the outward current. Inhibition of IK occurs at concentrations of calmodulin inhibitors 10(-9)-10(-8) mol/l. These agents inhibit primarily a component of the potassium current depending on the intracellular Ca2+ ions (IK(Ca in)). The inhibitory effect of these drugs can be explained by calmodulin-like structures of the receptor for intracellular calcium, providing modulation of IK(Ca in).
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PMID:[Blocking action of calmidazolium and chlorpromazine on the potassium outward current which depends on intracellular calcium ions]. 244 Dec 73


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