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Target Concepts:
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Query: UMLS:C0011570 (
depression
)
172,036
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The nature of the platelet response to osmotic shock and its relationship to platelet viability were studied. Light absorbancy changes of human platelet concentrates exposed to hypotonic shock were measured in a spectrophotometer: a sudden drop of light absorbancy was followed by a reversal of light absorbancy towards normal (reversal reaction). It was confirmed that the reversal reaction is a complex phenomenon dependent on the integrity of biochemical and enzymatic functions of the platelets. It was suppressed by glycolytic inhibitors and by SH-blocking agents. Ouabain had no immediate effect, but with prolonged incubation it depressed the reaction. Suspension of the platelets in a protein-free medium caused a rapid loss of the reversal reaction. Disappearance of the marginal bundle of microtubules by exposure to colchicine did not change the reaction leading to the hypothesis that microfibrils rather than the microtubules may have been responsible for the reversal reaction. The conclusion was derived that the reversal reaction is due to cell volume contraction for which integrity of the platelet
contractile protein
and energy availability are essential. Platelet storage at 4 degrees C or at 22 degrees C caused a progressive
depression
of the reversal reaction which was more severe in platelets preserved at 4 C than in those preserved at 22 degrees C, and paralleled the loss of the platelet capacity to survive in vivo. Cryoprotective agents (DMSO, DMAC and glycerol) partially inhibited the reversal reaction. Freezing with these agents caused a more severe
depression
of the reaction. The least
depression
was observed with 5 per cent DMSO. The results demonstrated that the reversal reaction is a valid and accurate in vitro indicator of in vivo platelet viability when the results to be compared are limited to a single method of storage. Usefulness of the reversal reaction is reduced when results obtained with different methods of storage are compared.
...
PMID:The platelet response to hypotonic shock. Its value as an indicator of platelet viability after storage. 1273 85
Cardiac disease in diabetes presents as impaired left ventricular contraction and relaxation; however, the mechanisms underlying
contractile protein
dysfunction during the progression of disease are unknown. Accordingly, we assessed Ca(2+)-dependent tension development and tension-dependent ATP consumption (tension cost) in a rat model early (6 wk) and late (12 wk) after the onset of diabetes (50 mg/kg iv streptozotocin) using mechanical force- and enzyme-coupled UV absorbance measurements. Myofilament Ca(2+) sensitivity and maximal tension were unchanged between groups at either time point. Cross-bridge cycling rate was significantly decreased in diabetes, as indexed by tension cost (early control 5.4 +/- 0.4 and early diabetes 4.2 +/- 0.3; and late control 6.0 +/- 0.2 and late diabetes 4.2 +/- 0.2; P < 0.05). Because rodent models of cardiac disease are confounded by altered myosin isoform distribution, myosin content was determined by SDS-PAGE and densitometry. The cardiac content of alpha-myosin in diabetes was decreased to 41% +/- 4.1 at 6 wk and 32.5% +/- 2.9 at 12 wk of diabetes (early control 77.8% +/- 3.3 and late control 73.6% +/- 2.5). Separate control experiments demonstrated a linear decrease in tension cost with decreased alpha-myosin content. Given this, the
depression
of tension cost in this rodent model of diabetes could be fully explained by the altered myosin isoform distribution.
...
PMID:Depressed cardiac tension cost in experimental diabetes is due to altered myosin heavy chain isoform expression. 1500 37
Changes in the ECM and increased airway smooth muscle (ASM) mass are major contributors to airway remodeling in asthma and chronic obstructive pulmonary disease. It has recently been demonstrated that ECM proteins may differentially affect proliferation and expression of phenotypic markers of cultured ASM cells. In the present study, we investigated the functional relevance of ECM proteins in the modulation of ASM contractility using bovine tracheal smooth muscle (BTSM) preparations. The results demonstrate that culturing of BSTM strips for 4 days in the presence of fibronectin or collagen I depressed maximal contraction (E(max)) both for methacholine and KCl, which was associated with decreased
contractile protein
expression. By contrast, both fibronectin and collagen I increased proliferation of cultured BTSM cells. Similar effects were observed for PDGF. Moreover, PDGF augmented fibronectin- and collagen I-induced proliferation in an additive fashion, without an additional effect on contractility or
contractile protein
expression. The fibronectin-induced
depression
of contractility was blocked by the integrin antagonist Arg-Gly-Asp-Ser (RGDS) but not by its negative control Gly-Arg-Ala-Asp-Ser-Pro (GRADSP). Laminin, by itself, did not affect contractility or proliferation but reduced the effects of PDGF on these parameters. Strong relationships were found between the ECM-induced changes in E(max) in BTSM strips and their proliferative responses in BSTM cells and for E(max) and
contractile protein
expression. Our results indicate that ECM proteins differentially regulate both phenotype and function of intact ASM.
...
PMID:Extracellular matrix proteins differentially regulate airway smooth muscle phenotype and function. 1729 76
Dominant-negative thyroid hormone receptors (TRs) show elevated expression relative to ligand-binding TRs during cardiac hypertrophy. We tested the hypothesis that overexpression of a dominant-negative TR alters cardiac metabolism and contractile efficiency (CE). We used mice expressing the cardioselective dominant-negative TRbeta(1) mutation Delta337T. Isolated working Delta337T hearts and nontransgenic control (Con) hearts were perfused with (13)C-labeled free fatty acids (FFA), acetoacetate (ACAC), lactate, and glucose at physiological concentrations for 30 min. (13)C NMR spectroscopy and isotopomer analyses were used to determine substrate flux and fractional contributions (Fc) of acetyl-CoA to the citric acid cycle (CAC). Delta337T hearts exhibited rate
depression
but higher developed pressure and CE, defined as work per oxygen consumption (MVo(2)). Unlabeled substrate Fc from endogenous sources was higher in Delta337T, but ACAC Fc was lower. Fluxes through CAC, lactate, ACAC, and FFA were reduced in Delta337T. CE and Fc differences were reversed by pacing Delta337T to Con rates, accompanied by an increase in FFA Fc. Delta337T hearts lacked the ability to increase MVo(2). Decreases in protein expression for glucose transporter-4 and hexokinase-2 and increases in pyruvate dehydrogenase kinase-2 and -4 suggest that these hearts are unable to increase carbohydrate oxidation in response to stress. These data show that Delta337T alters the metabolic phenotype in murine heart by reducing substrate flux for multiple pathways. Some of these changes are heart rate dependent, indicating that the substrate shift may represent an accommodation to altered
contractile protein
kinetics, which can be disrupted by pacing stress.
...
PMID:Cardioselective dominant-negative thyroid hormone receptor (Delta337T) modulates myocardial metabolism and contractile efficiency. 1852 24
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