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: EC:4.6.1.1 (adenylate cyclase)
19,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Exposure of cultured Graafian follicles to PGE2 for 20 h resulted in a loss of the cyclic AMP response to fresh hormone. This desensitization was prevented by addition to the medium of D2O (25--50%) or Li+ (0.6--6 mM), agents believed to stabilize microtubules, as well as by phalloidin (1.0--10 microM), believed to stabilize the polymerized state of actin, in a dose-dependent manner. The spontaneous recovery of responsiveness to PGE2 upon incubation of refractory follicles for 6 h in hormone-free medium was prevented by addition to the medium of cytochalasin B (CB; 3 microgram/ml) or of the actin-binding myosin subfragment HMM S-1 (80 microgram/ml) or of anti-actin serum; viz. by agents likely to interfere with microfilament function. D2O (50%) caused morphological damage to the inner layer of the membrana granulosa and severe depression of protein synthesis. The other drugs used (phalloidin, LiCl and cytochalasin B) had no such effects. Resensitization of refractory follicles was also prevented by cycloheximide (10 micrograms/ml) and by actinomycin D (10 micrograms/ml). It is speculated that the recovery process may involve the insertion of a newly synthesized protein, such as PG-receptor, into the membrane by a mechanism dependent on microfilament action. These findings provide suggestive evidence for the hypothesis that cytoskeletal elements associated with the cell membrane take part in the modulation of the adenylate cyclase response to hormones.
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PMID:Effect of modulators of cytoskeletal function on desensitization and recovery of PGE2-responsive ovarian adenylate cyclase. 23 63

Myosin light chain kinase which phosphorylates g2 light chain of skeletal muscle myosin requires an activator for the activity (Yazawa, M., and Yagi, K (1977) J. Biochem. (Tokyo) 82, 287-289). This activator has now been identified as the modulator protein known to be a Ca2+-dependent regulator for phosphodiesterase, adenylate cyclase, and ATPases. The identification is based on the quantitative cross-reactivity of muscle activator protein and brain modulator protein in activating myosin light chain kinase and brain phosphodiesterase and identical properties of both proteins in regard to sensitivities to Ca2+, UV absorption spectra, UV absorption difference spectra with or without Ca2+, and mobilities upon sodium dodecyl sulfate-polyacrylamide gel electrophoresis. In the presence of modulator protein, the activity of myosin light chain kinase was reversibly controlled by the physiological concentration of Ca2+. We suggest that two Ca2+-receptive proteins, i.e. modulator protein and troponin-C, may play roles in the contraction-relaxation cycle of skeletal muscle.
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PMID:Identification of an activator protein for myosin light chain kinase as the Ca2+-dependent modulator protein. 62 40

The plasmalemma and hyaline ectoplasm together constitute the sensory and motor organ of macrophages. The purpose of this study was to isolate this cell fraction in order to analyze it biochemically and functionally. Brief sonification of warmed rabbit lung macrophages caused release of heterodisperse hyaline blebs and filopodia, which were easily collected by differential centrifugation. Viewed in the electron microscope, these structures consisted of membrane-bounded sacs principally containing actin filaments. Some contained secondary lysosomes. They were enriched threefold over whole cell homogenates in specific adenylate cyclase activity and in trichloroacetic-acid-precipitable (125)I when derived from cells labeled with 125(I) by means of a lactoperoxidase-catalyzed reaction. These markers were found to have identical isopycnic densitites when macrophage homogenates were subjected to sedimentation in a focusing sucrose density gradient system, and these markers had densities distinct from those of other cytoplasmic organelles. These markers were therefore assumed to be associated with macrophage plasma membranes. The specific beta- glucuronidase activity of the bleb fraction was similar to that of homogenates, but the blebs had considerably lower specific succinic dehydrogenase activity and RNA content, and DNA was undetectable. Electrophoresis of blebs solubilized in sodium dodecyl sulfate on polyacrylamide gels revealed polypeptides co-migrating with macrophage actin-binding protein, myosin, and actin; blebs also had EDTA-activated adenosine triphosphatase activity characteristic of myosin. The concentrations of actin-binding protein and myosin were higher in blebs than in cells or cytoplasmic extracts, whereas actin concentrations were similar (relative to extracts) or only slightly greater (than in cells). Blebs and intact cells had high lactate dehydrogenase activities in the presence but not the absence of Triton X-100. Blebs and cells oxidased 1-[(14)C]glucose, and the rate of glucose oxidation was increased substantially in the presence of latex beads. We conclude that intact sacs of plasmalemma encasing contractile proteins and cytoplasmic enzymes can be isolated from macrophages. They are enriched in myosin and actin-binding protein, indicating that the contractile apparatus is regulated in the cell periphery. These structures have the capacity to respond to environmental signals. We suggest the name "podosomes" for them because of their resemblance to macrophage pseudopodia. We propose that podosome formation results from rapid dissolution of the cortical gel when the membrane is in an actively extended configuration.
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PMID:Peripheral hyaline blebs (podosomes) of macrophages. 92 88

1. Experiments were carried out to examine the biochemical changes, such as contractile protein biochemistry and membrane bound enzyme alterations associated with skeletal muscles of myd/myd. 2. Our studies demonstrate that there was a progressive decline in myofibrillar ATPase activity, and this decrease is greatest in 30 weeks old animals of myd/myd as compared to controls. 3. The proteolytic activity of myofibrils isolated from myd/myd was significantly higher than controls. 4. There was no significant difference in Ca2+ ATPase activity of myosin and actin-activated myosin ATPase activity of myd/myd and their controls. 5. Mg2+ ATPase and Na(+)+K(+)-ATPase of myodystrophic SL showed significant increase compared to controls. 6. Isoproterenol stimulated adenylate cyclase activity was significantly lower in the SL of dystrophic mice compared to controls. 7. GTP+isoproterenol stimulate adenylate cyclase was significantly higher in control SL and SR when compared to SL and SR isolated from myd/myd. 8. Guanylate cyclase activity was greater in myodystrophic mice both in the absence and presence of Triton X-100. cGMP and cAMP phosphodiesterase activities were greater in dystrophic mice as compared to controls. 9. These observations suggest that there are significant changes in myofibrillar ATPase, myofibrillar protease and membrane bound enzymes of myd/myd compared to control.
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PMID:Myofibrillar and membrane-bound enzymes in skeletal muscle from myodystrophic mice. 135 51

We propose a mechanism for the cytoplasmic Ca++ oscillator which is thought to power shuttle streaming in strands of the slime-mold Physarum polycephalum. The mechanism uses a phosphorylation-dephosphorylation cycle of myosin light chain kinase. This kinase is bistable if the kinase phosphorylation chain, through adenylate cyclase and cAMP, is activated by calcium. Relaxation oscillations can then occur if calcium is exchanged between the cytoplasm and internal vacuoles known to exist in physarum. As contractile activity in physarum myosin is inhibited by calcium, this model can give calcium oscillations 180 degrees out of phase with actin filament tension as observed. Oscillations of ATP concentration are correctly predicted to be in phase with the tension, provided the actomyosin cycling rate is comparable with ATPase rates for phosphorylation of the myosin light chain and its kinase.
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PMID:Model of the Ca2+ oscillator for shuttle streaming in Physarum polycephalum. 153 35

Both contraction and relaxation times are prolonged in cardiac muscle of senescent animals. This is in part explained by an alteration of excitation-contraction coupling due to an increased duration of the action potential, reduced biosynthesis of the Ca(2+)-stimulated ATPase pump of sarcoplasmic reticulum, and prevalence of the V3 isoform of myosin with slow ATPase activity. The response to catecholamine decreases with aging because of a defective transmission of alpha and beta adrenergic stimulation mediated respectively by phosphoinositide hydrolysis and adenylate cyclase. Cardiac energetics is also impaired in the aged myocardium, since ATP and creatine phosphate levels are reduced by about 20%. This reduction seems in part the consequence of defective mitochondrial function, especially in fatty acid oxidation and ATP translocation to the cytoplasm. In this paper we have discussed the possibility that oxygen free radicals may be a cause of myocardial senescence, by damaging the nuclear and mitochondrial genomes as well as membranes and other cellular components.
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PMID:Biochemical correlates with myocardial aging. 164 41

The role of platelets in hemostasis and thrombosis has been well established since Eberth's and Schimmelbusch's pioneering intravital microscopic experiments. A century ago the distinct features of the circulating "smooth disc" and the activated "spiny sphere" were described. Since then the underlying cell-biological processes transforming a harmless floating platelet into a sticky corpuscle, ready to release its stores of thrombogenic and atherogenic substances have been unveiled. However, its life-threatening capabilities have evolved from the necessity of preventing equally dangerous blood losses from a pressurized circulation system. As circulation depends on the liquid state of blood, the platelets and the molecules of the plasmatic coagulation system must circulate in an inactive state, to become activated at the site of "demand" to transform the liquid into a solid hemostatic plug. As in nucleated cells the plasma membrane, made up of a phospholipid bilayer with integrated glycoproteins, is the structure signalling environmental information to the platelet interior. Many of the receptors for stimulatory or inhibitory mediators elicit a cell-biological response via G-proteins and subsequent Ca2+ mobilization by IP3, or stimulation/inhibition of adenylate cyclase followed by changes in cytoplasmic levels of cyclic AMP. The supposed intracellular Ca2+ store of the platelets, the dense tubular system, also appears as the site of Ca2(+)-activated prostaglandin synthesis. Raised cytoplasmic Ca2+ levels promote the polymerization of G-actin to F-actin involved in the extension of pseudopodia in the course of "external shape change." Ca2(+)-activated myosin light-chain kinase phosphorylates myosin which becomes associated with F-actin, with the resulting acto-myosin complex providing the contractile force for "internal shape change," i.e., the centralization of organelles and for clot retraction later in hemostasis. More than by the three-dimensional actin cytoskeleton proper, the discoid shape typical of the nonstimulated platelet appears to be secured by a two-dimensional membrane skeleton of actin filaments anchored to membrane glycoproteins via actin-binding protein or spectrin and ankyrin. Although the microtubule coil has been confirmed as the main determinant of the mechanical stiffness of the platelet with biophysical techniques, its hitherto assumed role for the maintenance of the disc shape no longer appears tenable. The morphological phenomenon of the shape change comprises an alteration of membrane glycoproteins resulting in binding of "adhesive" molecules like fibrinogen.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Histophysiology of the circulating platelet. 226

The relationship between tension and myosin 20,000-Da light chain phosphorylation in intact nonmuscle cells was investigated using a preparation of thrombin-activated, irreversibly aggregated platelets known as the platelet strip. Steady-state levels of tension generated by the platelet strip were found to be linearly related to the level of myosin phosphorylation. This relationship was observed during dose-dependent relaxation induced by the adenylate cyclase activators prostaglandin (PG) E1 and PGI2, and during contraction induced by ADP, epinephrine, and the prostaglandin endoperoxide analogue U-46619, which did not appreciably alter the basal level of adenosine 3',5'-cyclic monophosphate in the preparation. The fully relaxed platelet strip, in the absence of external Ca2+, was associated with a level of 12% light chain phosphorylation, which increased to 72% on maximal contraction. During both relaxation and contraction, changes in myosin phosphorylation were also found to precede or coincide with tension changes. Furthermore, steady-state contraction induced by ADP was associated with a maintained elevation in the level of myosin phosphorylation. These results support the concept that myosin phosphorylation is an important regulatory mechanism for contractility in platelets.
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PMID:Role of myosin phosphorylation in contractility of a platelet aggregate. 299 87

Cyclic AMP stimulation of chemotactically competent Dictyostelium amebas labeled with [32P]orthophosphate transiently increases phosphorylation in the heavy chain and the 18,000 dalton light chain of myosin. Immediately before the increase, heavy chain phosphorylation transiently decreases. These phosphorylation changes also occur when cAMP-induced activation of adenylate cyclase is blocked by pretreatment of amebas with caffeine. The time course of these phosphorylation responses correlates with the shape changes induced in amebas exposed to a temporal increase in cAMP concentration. The dose dependence of the phosphorylation responses is the same as that previously determined for chemotaxis. The phosphorylation responses exhibit adaptation properties in common with those of the shape change response and chemotaxis. Increases in the rate of myosin heavy chain and light chain phosphorylation can be observed in vitro by stimulating unlabeled amebas with cAMP and then lysing the cells into a gamma-[32P]ATP-containing reaction mixture.
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PMID:Chemoattractant-elicited increases in myosin phosphorylation in Dictyostelium. 300 Jun 4

Cultured dog thyroid cells contain 21 and 19 kilodalton (K) phosphoproteins which by several criteria have been identified as light chains of myosin (MLC). TSH causes a reduction in the phosphorylation state of the 21 K-19 K proteins, at least in part through activating adenylate cyclase and increasing cAMP levels. We now report that 12-O-tetradecanoyl-phorbol-13-acetate (TPA) also decreases the 21 K-19 K protein phosphorylation state, but in contrast to that due to TSH, the TPA-induced decrease is not associated with elevated cAMP levels. The effect of TPA was not additive to that of TSH. Because Ca++ is a major factor regulating MLC kinase and TPA-stimulated protein kinase C in other systems, the role of Ca++ in the phosphorylation of the 21 and 19 K polypeptides in dog thyroid was examined. In intact cells, both (8-diethylamino)-octyl-3,4,5-trimethoxybenzoate hydrochloride (TMB-8) (1 X 10(-4) M) and trifluoperazine (TFP) (4 X 10(-5) M) increase basal 21 K-19 K protein phosphorylation and inhibit the decrease in phosphorylation caused by TSH and TPA without affecting cAMP levels. Ionophore A23187 (5 X 10(-6) M) counteracts TMB-8- and TFP-stimulated phosphorylation as well as TMB-8 and TFP inhibition of TSH- and TPA-reduced 21 K-19 K phosphorylation. Incubation of 32PO4-labeled dog thyroid cells in the absence of extracellular Ca++ or with verapamil does not significantly affect basally phosphorylated 21 K-19 K proteins or the decreased 21 K-19 K phosphorylation state caused by TSH. These results strongly suggest that the phosphorylation state of the 21 and 19 K proteins is affected more significantly by intracellular Ca++ pools than by extracellular Ca++, and implicate a kinase(s) other than Ca++-calmodulin-dependent MLC kinase in the phosphorylation of MLC in the dog thyroid.
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PMID:Role of cellular Ca++ in phosphorylation of 21 K and 19 K polypeptides in cultured thyroid cells: effects of phorbol ester, trifluoperazine, and 8-diethylamino-octyl-3,4,5-trimethoxybenzoate hydrochloride. 359 18


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