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)

In order to clarify the mechanism underlying impaired cardiac performance in uraemia, the contractile function of isolated cardiac myocytes from chronically uraemic and control rats has been compared. Rats were made uraemic by sub-total nephrectomy in a two-stage surgical procedure, and left for 4 weeks. Sham-operated controls were prepared at the same time. Animals were pairfed, and final body weights were not significantly different between the groups. Ventricular myocytes were isolated and their contraction amplitude and velocity were measured using a video-based edge-detection system. Contraction was depressed in myocytes from uraemic animals, with contraction amplitude in maximum Ca2+ reduced from 16.3 +/- 0.6% shortening, to 13.0 +/- 0.8% (p < 0.01, n = 10 animals for each group). There was a concomitant decrease in the velocity of shortening (5.6 +/- 0.4 vs. 3.9 +/- 0.5 micron s-1 change in sarcomere length, p < 0.02) and of relaxation (4.6 +/- 0.4 vs. 3.2 +/- 0.4 micron s-1 p < 0.02). Similar depression was seen at lower perfusate Ca2+ concentrations (1-2 mM) and the EC50 for Ca2+ was unchanged. The response to beta-adrenoceptor stimulation was decreased by the same magnitude as that to Ca2+, with no change in the EC50 for isoproterenol or the ratio of maximum response to isoproterenol or to Ca2+ in the same cell (isoproterenol/Ca2+ ratio). There was no shift in the myosin isozyme composition in uraemic cells, with both groups showing a heterogeneous V1/V2/V3 pattern. We conclude that chronic uraemia is associated with a depression of contractile function in the isolated myocyte but no shift in myosin isoforms or specific beta-adrenoceptor desensitisation.
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PMID:Contractile dysfunction of isolated ventricular myocytes in experimental uraemia. 877 76

Truncated mutants of smooth muscle myosin containing various lengths of the S2 portion were expressed in Sf9 cells and purified. Truncated myosin having a heavy chain molecular mass of 128 kDa and larger formed a stable dimer, while 108 kDa myosin remained a monomer. On the other hand, 114 and 110 kDa myosins existed as both monomer and dimer. The enzymatic activity and also the in vitro actin sliding activity of these mutant myosins were measured, and the following findings were obtained. (1) Both the actin sliding activity and the actin-activated ATPase activity showed phosphorylation dependence when myosin forms a dimer while the monomeric form was phosphorylation-independent. This indicates that the interaction between the two heads is operating and critical for the regulation. (2) The actin sliding velocity of the dimer form was twice as large as that of the monomer form, while the actin-activated ATPase activity of the two forms was identical, suggesting that the mechano-chemical efficiency is affected by the interaction between the two heads. (3) The depression of the Mg(2+)-ATPase activity of myosin at low ionic strength, characteristic of the 6S-10S transition of smooth muscle myosin, is abolished with the monomer form, suggesting that the association of the two heads is critical for the 6S-10S transition.
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PMID:Characterization of the motor and enzymatic properties of smooth muscle long S1 and short HMM: role of the two-headed structure on the activity and regulation of the myosin motor. 878 May 15

The heart is a major target organ for thyroid hormone action, and marked changes occur in cardiac function in patients with hypothyroidism or hyperthyroidism. Triiodothyronine (T3)-induced changes in cardiac function can result from direct or indirect T3 effects. Direct T3 effects result from T3 action in the heart itself and are mediated by nuclear or extranuclear mechanisms. Extranuclear T3 effects, which occur independently of nuclear T3 receptor binding and increases in protein synthesis, influence primarily the transport of amino acids, sugars, and calcium across the cell membrane. Nuclear T3 effects are mediated by the binding of T3 to specific nuclear receptor proteins, which results in increased transcription of T3-responsive cardiac genes. The T3 receptor is a member of the ligand-activated transcription factor family and is encoded by cellular erythroblastosis A (c-erb A) genes. T3 increases the heart transcription of the myosin heavy chain (MHC) alpha gene and decreases the transcription of the MHC beta gene, leading to an increase of myosin V1 and a decrease in myosin V3 isoenzymes. Myosin V1, which is composed of two MHC alpha, has a higher myosin ATPase activity than myosin V3, which contains two MHC beta. The globular head of myosin V1, with its higher ATPase activity, leads to a more rapid movement of the globular head of myosin along the thin filament, resulting in an increased velocity of contraction. T3 also leads to an increase in the speed of diastolic relaxation, which is caused by the more efficient pumping of the calcium ATPase of the sarcoplasmic reticulum (SR). This T3 effect results from T3-induced increases in the level of the mRNA coding for the SR calcium ATPase protein, leading to an increased number of calcium ATPase pump units in the SR. Overall, T3 leads to an increase in ATP consumption in the heart. In addition, less chemical energy of ATP is used for contractile purposes and more of it goes toward heat production, which causes a decreased efficiency of the contractile process in the hyperthyroid heart. The pathophysiologic basis for myxedema is the opposite of that discussed for the hyperthyroid heart. In addition to decreased direct effects of thyroid hormone in cardiac myocytes, indirect effects occur through decreases in peripheral oxygen consumption and changes in hemodynamic parameters. Myofibrillar swelling with loss of striation and interstitial fibrosis occurs on histologic examination of hypothyroid hearts. In addition, accumulation of mucopolysaccharide substances (Glycosaminoglycans) can be demonstrated. On electron microscopic examination, mitochondria show disruption and lipid inclusion. Cardiac papillary muscle obtained from animals with hypothyroidism shows a depression of the force velocity curve and reduced rate of tension development, indicating significant contractile abnormalities. In patients with hypothyroidism, a true enhanced incidence of hypertension (increased peripheral vascular resistance) has been found. In addition, hypercholesterolemia and impairment of fatty acid mobilization are associated with myxedema and present additional risk factors for the development of atherosclerotic cardiovascular disease.
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PMID:[Cardiovascular effects of thyroid hormones]. 906 69

To elucidate cellular mechanisms of myocardial depression in Pseudomonas sepsis the effects of sublethal concentrations of P. aeruginosa exotoxin A--a main virulence factor--were studied in cultured neonatal rat cardiomyocytes. It is known that this toxin exerts its pathogenic effect by inhibition of protein synthesis via ADP-ribosylation and thereby inactivation of elongation factor 2 (EF-2). Within 48 72 h, half maximal inhibition of protein synthesis occurs at 4-10 ng/ml. The toxin prevents the beta-adrenoceptor(AR)-mediated myosin heavy chain isozyme shift (V3/V1), while the T3-induced myosin shift is not suppressed. While beta 1-AR-downregulation by excess of norepinephrine (NE) is not affected, protein synthesis-dependent receptor upregulation in the recover period after removal of NE is completely suppressed by P. aeruginosa exotoxin A. Thus, a non-lethal, partial inhibition of global cellular protein synthesis by P. aeruginosa exotoxin A: (1) completely prevents beta 1-AR-mediated myosin isozyme shift and beta-AR upregulation: (2) sustains the cardiomyocytes in a catecholamine-refractory contractile state in the recovery period after catecholamine desensitization: (3) suggests cellular mechanisms by which P. aeruginosa exotoxin A might impair heart function in Pseudomonas sepsis: and (4) may help reveal the possible influence of endogenous inhibitors of EF-2.
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PMID:Partial inhibition of protein synthesis by Pseudomonas exotoxin A deranges catecholamine sensitivity of cultured rat heart myocytes. 914 Aug 36

The kinetics of actin-myosin interaction has been studied in single active muscle fibres by repetitively eliciting tension transients with staircase shortening, consisting in a sequence of step releases of identical size (1-5 nm per half-sarcomere) imposed at regular time intervals (3-11 ms). Under sarcomere length-clamp conditions, the quick phase of tension recovery following each step in the staircase is the manifestation of the working stroke by synchronized cross-bridges. Different average shortening velocities are obtained by varying both the size of the step and the time interval between steps. Ti, the tension just before each step in the sequence, T2, the tension attained at the end of the quick phase of tension recovery, decrease with the number of steps, reaching a steady state value, which is lower the larger the shortening velocity. In agreement with previous results on tension response to steady shortening, the overall shortening necessary to approach the steady state values of Ti and T2 is about 15 nm. The normalized amplitude of quick tension recovery (T2r), which is measured by the ratio of the amount of tension recovered at the end of the quick phase (T2-T1) over the tension drop simultaneous with the step (Ti-T1), has been used to measure the extent of the working stroke elicited by each step in the staircase. The steady state value of T2r decreases progressively with the increase of shortening velocity. At velocities higher than 0.5 microns s-1 per half-sarcomere the steady state value of T2r is attained after a transitory depression, which reaches a maximum for an amount of overall shortening increasing from about 8 nm up to about 13 nm with increase in shortening velocity from 0.5 to 1.4 microns s-1 per half-sarcomere. The velocity-dependent transitory depression of T2r can be explained with the mechanical-kinetic model described previously. In the model cross-bridges cycle through two pathway distinct for the kinetics of the detachment/reattachment process. Shortening promotes a redistribution of cross-bridges interacting in the isometric conditions among the various states of the force-generating process. Shortening at high speed, preventing most of cross-bridges from undergoing the relatively fast (100 s-1) detachment/reattachment process, uncovers a rate limiting step in the cycle at the end of the 12 nm working stroke. Under these conditions, the finding that the fraction of the working stroke elicited by each step is transitory depressed with respect to the steady state value reveals that in the original isometric state a large fraction of interacting cross-bridges was accumulated near the beginning of the working stroke.
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PMID:Cross-bridge kinetics studied with staircase shortening in single fibres from frog skeletal muscle. 914 97

Conversion of the three mapped threonine phosphorylation sites in the myosin II heavy chain tail to alanines results in a mutant (3XALA) in Dictyostelium discoideum, which displays constitutive myosin overassembly in the cytoskeleton and increased cortical tension. To assess the importance of myosin phosphorylation in cellular translocation and chemotaxis, 3XALA mutant cells have been analyzed by 2D and 3D computer-assisted methods in buffer, in a spatial gradient of cAMP, and after the rapid addition of cAMP. 3XALA cells crawling in buffer exhibit distinct abnormalities in cellular shape, the maintenance of polarity and the complexity of the pseudopod perimeter. 3XALA cells crawling in buffer also exhibit a decrease in directionality. In a spatial gradient of cAMP, the behavioral defects are accentuated. In a spatial gradient, 3XALA cells exhibit a repeating 1- to 2-min behavior cycle in which the shape of each cell changes abnormally from elongate to extremely wide with lateral, opposing pseudopods. At the end of each cycle, 3XALA cells turn 90 degrees into the left or right lateral pseudopod, resulting in a dramatic depression in chemotactic efficiency, even though 3XALA cells are chemotactically responsive to cAMP. These results demonstrate that the phosphorylation of myosin II heavy chain plays a critical role in the maintenance of cell shape and in persistent translocation in a spatial gradient of chemoattractant.
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PMID:Phosphorylation of the Dictyostelium myosin II heavy chain is necessary for maintaining cellular polarity and suppressing turning during chemotaxis. 945 12

Intracellular accumulation of inorganic phosphate (Pi) and intracellular acidosis, which occur in ischemic and hypoxic hearts, reduce the force of contraction by decreasing the responsiveness of contractile system to Ca2+. In the present study we investigated the effects of MCI-154, a Ca2+ sensitizer that can enhance crossbridge interaction, on the decline in maximal Ca2+-activated force by Pi or acidic pH in skinned fiber bundles of guinea pig hearts. MCI-154 can concentration-dependently reverse the depression in maximal Ca2+-activated force (pCa 4.4) by 20 mM Pi, which was not recovered by a higher concentration of Ca2+ ion (pCa 4.0). The effects of MCI-154 were observed even at a concentration (0.01 M) at which the drug has no effect on the pCa 4.4-induced maximal force in the absence of 20 mM Pi when given alone. MCI-154 inhibited the rightward shift of the pCa-tension relationships, with a marked decrease of maximal force produced by 20 mM Pi or acidic pH (decrease in pH from 7.0 to 6.6). MCI-154 also improved the decline in maximal Ca2+-activated force by 20 mM Pi under acidic pH, but the acidosis did not further decrease the effect of 20 mM Pi. Milrinone, a cyclic AMP-dependent phosphodiesterase inhibitor, and pimobendan, another Ca2+ sensitizer, did not improve the Pi-induced contractile failure. These results indicate that the Ca2+ sensitizer MCI-154 could reverse the contractile failure induced by Pi and/or acidic pH in a skinned fiber preparation via modulation of the strong crossbridge reaction with myosin. MCI-154 may be a promising agent for myocardial contractile failure, in which Pi and H+ progressively increase.
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PMID:MCI-154, a cardiac Ca2+ sensitizer, reverses the depression in maximal Ca2+-activated force by inorganic phosphate and acidic pH in skinned fiber of guinea pig heart. 949 98

This study was aimed at elucidating whether ventricular hypothermia-induced dysfunction persisting after rewarming the unsupported in situ dog heart could be characterized as a systolic, diastolic, or combined disturbance. Core temperature of 8 mongrel dogs was gradually lowered to 25 degreesC and returned to 37 degreesC over a period of 328 min. Systolic function was described by maximum rate of increase in left ventricular (LV) pressure (dP/dtmax), relative segment shortening (SS%), stroke volume (SV), and the load-independent contractility index, preload recruitable stroke work (PRSW). Diastolic function was described by the isovolumic relaxation constant (tau) and the LV wall stiffness constant (Kp). Compared with prehypothermic control, a significant decrease in LV functional variables was measured at 25 degreesC: dP/dtmax 2,180 +/- 158 vs. 760 +/- 78 mmHg/s, SS% 20.1 +/- 1.2 vs. 13.3 +/- 1.0%, SV 11.7 +/- 0.7 vs. 8.5 +/- 0.7 ml, PRSW 90.5 +/- 7.7 vs. 29.1 +/- 5.9 J/m. 10(-2), Kp 0.78 +/- 0.10 vs. 0.28 +/- 0.03 mm-1, and tau 78.5 +/- 3.7 vs. 25.8 +/- 1.6 ms. After rewarming, the significant depression of LV systolic variables observed at 25 degreesC persisted: dP/dtmax 1,241 +/- 108 mmHg/s, SS% 10.2 +/- 0.8 J, SV 7.3 +/- 0.4 ml, and PRSW 52.1 +/- 3.6 m. 10(-2), whereas the diastolic values of Kp and tau returned to control. Thus hypothermia induced a significant depression of both systolic and diastolic LV variables. After rewarming, diastolic LV function was restored, in contrast to the persistently depressed LV systolic function. These observations indicate that cooling induces more long-lasting effects on the excitation-contraction coupling and the actin-myosin interaction than on sarcoplasmic reticulum Ca2+ trapping dysfunction or interstitial fluid content, making posthypothermic LV dysfunction a systolic perturbation.
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PMID:Left ventricular dysfunction following rewarming from experimental hypothermia. 984 36

In view of the activation of renin-angiotensin system under conditions associated with pressure overload on the heart, we examined the effects of captopril, an angiotensin converting enzyme inhibitor, and losartan, an angiotensin II receptor antagonist, on cardiac function, myofibrillar ATPase and sarcoplasmic reticular (SR) Ca2+-pump (SERCA2) activities, as well as myosin and SERCA2 gene expression in hypertrophied hearts. Cardiac hypertrophy was induced in rats treated with or without captopril or losartan by banding the abdominal aorta for 8 weeks; sham operated animals served as control. Decrease in left ventricular developed pressure, +dP/dt and -dP/dt as well as increase in left ventricular end diastolic pressure and increased muscle mass due to pressure overload were prevented by captopril or losartan. Treatment of animals with captopril or losartan also attenuated the pressure overload-induced depression in myofibrillar Ca2+-stimulated ATPase, myosin ATPase, SR Ca2+-uptake and SR Ca2+-release activities. An increase in beta-myosin heavy chain mRNA and a decrease in alpha-myosin heavy chain mRNA as well as depressed SERCA2 protein and SERCA2 mRNA levels were prevented by captopril or losartan. These results suggest that both captopril and losartan improve myocardial function in cardiac hypertrophy by preventing changes in gene expression and subsequent subcellular remodeling due to pressure overload.
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PMID:Modification of cardiac subcellular remodeling due to pressure overload by captopril and losartan. 1005 50

Ablation of the cardiac neural crest (CNCA) in embryonic chicks results in a high incidence of persistent truncus arteriosus, a congenital heart defect associated with decreased myocardial contractility. Using left ventricular trabeculae from chicks at embryonic day (ED) 15, we have previously shown that the twitch force of intact preparations is significantly reduced whereas the maximal calcium-activated force of skinned preparations is not significantly different in CNCA and sham-operated animals. We also previously found that the ventricular content of myosin, as well as of actin and tropomyosin, was nearly doubled in ED 15 hearts after CNCA. Since the number of cross-bridges is proportional to the myosin concentration, these data suggest that the force exerted per cross-bridge is decreased in CNCA hearts. We investigated the possibility that the decrease in force per cross-bridge is caused by inhibition of the contractile apparatus by excessive microtubules. To the contrary, we found that the total beta-tubulin content and the fraction of beta-tubulin polymerized in microtubules measured by Western blotting was the same in ventricular muscle strips from CNCA and sham-operated embryos. Furthermore, exposure to microtubule-destabilizing agents did not improve the force-producing capability of the contractile apparatus in CNCA embryos. We conclude that depression of force per cross-bridge in hearts from CNCA embryos is not due to an excess of microtubules.
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PMID:Excessive microtubules are not responsible for depressed force per cross-bridge in cardiac neural-crest-ablated embryonic chick hearts. 1039 60


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