UMLS:C0036690 - FACTA Search

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Query: UMLS:C0036690 (sepsis)
59,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The muscarinic receptor changes in two subcellular fractions of rat myocardium during sepsis, the sarcolemma (SL) and light vesicles (LV), were studied. [3H]-quinuclidinyl benzilate ([3H]-QNB) was used as a radioligand. Sepsis was induced by cecal ligation and puncture (CLP). The septic rats had higher pulse rates and slightly higher blood glucose levels than control rats. The marker enzyme assays revealed that the SL fraction was enriched with 5'-nucleotidase and the Na(+)-K(+)-ATPase activity increased over 20-fold, while the LV fraction showed very little enrichment when compared with the homogenate. [3H]-QNB binding studies showed that Bmax increased by 58.8% in SL with no changes in LV during early sepsis (9 h post-CLP), but there was no significant change in the Kd value. These data indicate that muscarinic cholinergic receptors in rat heart SL increase during early sepsis. Since the muscarinic cholinergic receptors mediate parasympathetic modulation of myocardial contractility, changes in the number of muscarinic receptors in the cardiac SL may have a pathophysiologic significance in the development of hemodynamic changes during sepsis.
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PMID:Density of muscarinic receptors in rat myocardium during early sepsis. 852 71

Endotoxins (lipopolysaccharides; LPS) are known to cause multiple organ failure, including renal dysfunction. The present report elucidates LPS distribution and effect on renal proximal tubules in an attempt to gain a better understanding of the cellular mechanism underlying the pathogenesis of renal dysfunction in endotoxemia and sepsis. Rats were intravenously treated with biotin-linked or regular Escherichia coli (0111:B4) LPS (3 mg/kg) and sacrificed at different times. Kidneys were retrieved and examined for LPS localization, tubular permeability, ultracytochemical alterations, leukocyte sequestration, and ICAM-1 expression. The functional impact of endotoxemia was also assessed by monitoring the changes in urine levels of glucose in timed collections up to 6 h. LPS was localized on the plasma membranes of the apical microvilli, the labyrinth of the lateral intercellular spaces, in various organelles of epithelial cells, and in the endothelial cells of the peritubular capillaries. LPS caused structural damage and calcium accumulation in the mitochondria, leakage of tight junctions, widening of the basolateral intercellular spaces, intracellular and extracellular edema, leukocyte margination and accumulation, vascular expression of ICAM-1, and decrease of plasma membrane and mitochondrial Ca2(+)-ATPase. Physiological study showed that both urine volume and glucose were greatly increased after LPS infusion. The pathological alterations in the proximal tubules may directly contribute to the reduction in the reabsorption ability of the proximal tubules.
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PMID:Distribution and role of lipopolysaccharide in the pathogenesis of acute renal proximal tubule injury. 860 2

Intrahepatic cholestasis in the setting of extrahepatic bacterial infection has been attributed to the effects of endotoxin and cytokines such as tumor necrosis factor-alpha (TNF-alpha) on bile acid transport. To define the mechanism of sepsis-associated cholestasis, taurocholate transport was examined in basolateral (bLPM) and canalicular (cLPM) rat liver plasma membrane vesicles derived from control and endotoxin [lipopolysaccharide (LPS)]-treated animals and in plasma membrane vesicles prepared after TNF-alpha treatment. Na(+)-dependent [3H]taurocholate uptake and both membrane-potential-dependent and ATP-dependent [3H]taurocholate transport were reduced in bLPM and cLPM vesicles, respectively, after LPS treatment. In membrane vesicles from TNF-alpha-treated animals, Na(+)-dependent [3H]taurocholate uptake was also reduced. Northern blot hybridization, using cDNA probes for the putative sinusoidal bile acid transporter (Ntcp) and canalicular ecto-adenosinetriphosphatase, demonstrated decreased mRNA levels after LPS and TNF-alpha treatment. Immunoblot analysis of membrane extracts from LPS-treated animals revealed decreased levels of these putative bile acid transporters. Impaired bile acid transport at the sinusoidal and canalicular membrane domains by these and other mediators of the inflammatory response may account for sepsis-associated cholestasis.
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PMID:Effect of endotoxin on bile acid transport in rat liver: a potential model for sepsis-associated cholestasis. 876 Jan 17

Although a linkage between aerobic glycolysis and sodium-potassium transport has been demonstrated in diaphragm, vascular smooth muscle, and other cells, it is not known whether this linkage occurs in skeletal muscle generally. Metabolism of intact hind-leg muscles from young rats was studied in vitro under aerobic incubation conditions. When sodium influx into rat extensor digitorum longus (EDL) and soleus muscles was facilitated by the sodium ionophore monensin, muscle weight gain and production of lactate and alanine were markedly stimulated in a dose-dependent manner. Although lactate production rose in both muscles, it was more pronounced in EDL than in soleus. Monensin-induced lactate production was inhibited by ouabain or by incubation in sodium-free medium. Preincubation in potassium-free medium followed by potassium re-addition also stimulated ouabain-inhibitable lactate release. Replacement of glucose in the incubation medium with pyruvate abolished monensin-induced lactate production but exacerbated monensin-induced weight gain. Muscles from septic or endotoxin-treated rats exhibited an increased rate of lactate production in vitro that was partially inhibited by ouabain. Increases muscle lactate production in sepsis may reflect linked increases in activity of the Na+, K+-ATPase, consumption of ATP and stimulation of aerobic glycolysis.
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PMID:Linkage of aerobic glycolysis to sodium-potassium transport in rat skeletal muscle. Implications for increased muscle lactate production in sepsis. 894 58

Norepinephrine and epinephrine stimulate alpha- and beta-adrenergic receptors which, in turn, modulate force of contraction in heart muscle cells. However, chronic stimulation may be associated with growth-promoting effects and modulation of the cardiac phenotype. Sympathetic tone is chronically enhanced in chronic heart failure and results in a selective down regulation of beta 1 adrenergic receptors, most likely due to local mechanisms. Beyond reduced beta 1 receptor density and increased levels of inhibitory Gi proteins, there is now evidence that NO can modulate the beta-adrenergic stimulation in the human myocardium. Increased NO activity generated by an inducible NO synthase is associated with a reduced positive inotropic response to beta-agonists, a mechanism which may play an important role in inflammatory states such as myocarditis or sepsis. Experimental data suggests that stimulation of alpha-adrenergic receptors of cardiomyocytes results in cardiac growth and changes in phenotype which, in turn, may affect the functional properties of the myocardium. For example, phenylephrine can upregulate the expression of the sodium/calcium exchanger, while the expression SR Ca2+ ATPase may be reduced. The latter is also affected by angiotensin II. Similar changes in the expression of these crucial proteins for the cardiac calcium homeostasis have been reported in the failing human heart, raising the possibility that the increased sympathetic tone and the activated renin-angiotensin system may be involved in these changes.
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PMID:[Sympathetic nervous system in heart failure: effect of catecholamines and nitric oxide]. 906 72

Sepsis, the systemic response to severe infection, and the resulting multiorgan failure it induces are major contributors to intensive care unit morbidity and mortality. A number of abnormalities in ion transport processes and intracellular free Na+ ([Na+]i) and K+ ([K+]i) concentrations have been reported to occur during sepsis/endotoxemia. An effect of sepsis on the NA(+)-K(+)-ATPase may be an important contribution to changes in intracellular ion balance and the resultant pathophysiology of the disorder. The purpose of this study was to examine the effect of sepsis on the Na(+)-K(+)-ATPase in the isolated perfused rat heart using 133Cs+ nuclear magnetic resonance (NMR). Cs+ is a K+ analog, and 133Cs-NMR offers the opportunity to examine Na(+)-K(+)-ATPase activity in the intact organ via tracer kinetics. Sepsis was induced in halothane-anesthetized male Sprague-Dawley rats using the cecal ligation and perforation (CLP) model. Twenty-four to thirty-six hours after surgery, hearts from CLP or sham-operated rats were perfused with Krebs-Henseleit buffer containing 1.25 mM Cs+. The influx rate constant for Cs+ was decreased by 24% in septic rat hearts, i.e., 0.25 +/- 0.08 (SD) min 1 for controls and 0.19 +/- 0.04 (SD) min-1 for septic animals (P = 0.003). There was no difference for Cs+ efflux [0.005 +/- 0.001 (SD) min-1 for controls and 0.005 +/- 0.002 (SD) min-1 for septic animals; P = 0.8]. These results are consistent with an inhibition of the Na(+)-K(+)-ATPase pump during sepsis/endotoxemia. A decrease in the activity of the Na(+)-K(+)-ATPase pump may be responsible for or contribute to the changes in [Na+]i and [K+]i during the disorder.
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PMID:Inhibition of ion transport in septic rat heart: 133Cs+ as an NMR active K+ analog. 917 55

Changes in the number of calcium channels in two subcellular fractions, the sarcolemma and the light vesicle, of rat cardic cells were studied during sepsis. Sepsis was induced by cecal ligation and puncture (CLP). The results showed that some of the calcium channels in the light vesicle translocated to the sarcolemma during the early sepsis (9 h after CLP) while during the late sepsis (18 h after CLP), some of these in the sarcolemma translocated to the light vesicle. The mechanisms of redistribution of the calcium channels in the sarcolemma and the light vesicle during sepsis was not associated to the phosphorylation of the calcium channels by cAMP dependent protein kinase (PKA), Ca2+/calmodulin dependent protein kinase (PKM) and protein kinase C (PKC). Since beta-adrenergic receptors, muscarinic cholinergic receptors and Na+/K(+)-ATPase were also redistributed during sepsis, it is suggested that the redistribution might be non-specific.
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PMID:[Changes in the calcium channels in rat cardiac cells during sepsis]. 938 65

The phosphorylation of Ca(2+)-transport ATPase of rat liver endoplasmic reticulum (ER) during early and late septic shock induced by cecum ligation and puncture (CLP) was investigated by determining incorporation of [gamma-32P] ATP into Ca(2+)-ATP phosphoprotein intermediate. Hepatic endoplasmic reticulum was isolated by differential centrifugation with sucrose density gradient. The Ca(2+)-ATPase phosphoprotein intermediate was identified by SDS-PAGE. The results showed that the phosphorylation of Ca(2+)-ATPase (115 kD) was decreased respectively by 15-23% (P < 0.05) and 17-27% (P < 0.05) at 9 h (early sepsis) and 18 h (late sepsis), following the CLP in the rough, intermediate and smooth ER preparations. Kinetic analysis using rough ER showed that the Vmax for Ca2+ and for ATP for the phosphorylation of Ca(2+)-ATPase were decreased dramatically during early and late sepsis, but without changes in the K(m) values. These results demonstrate that the phosphorylation of the phosphoprotein intermediate of Ca(2+)-ATPase in rat liver was impaired during different phases of sepsis.
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PMID:[Impairment in the phosphorylation of Ca(2+)-transport ATPase of rat liver endoplasmic reticulum during sepsis]. 938 79

Muscle biopsies for histochemical and ultrastructural analysis were obtained from seven critically ill patients admitted to the Intensive Care Unit of the "Domingo Luciani" Hospital, Caracas, Venezuela. The sample included two patients with sepsis of abdominal origin, and five that presented sepsis/MOFS, with renal, hepatic, and respiratory disturbances and muscular weakness. Sections were examined for myosin adenosine triphosphatase (ATPase) after pre-incubation with both acid buffer (pH 4.37 and 4.6) and alkaline buffer (pH 10.3), for reduced nicotinamide dinucleotide diaphorase (NADHd), and for alpha-glycerophosphate dehydrogenase (alpha-GPDH). Sections were stained with hematoxilin and eosin to look for pathological changes and examined with a transmission electron microscope. Skeletal muscle of patients in early stage of sepsis showed a normal aspect with light microscopy, but at the ultrastructural level some of the fibres showed atrophy and some capillaries looked altered. Patients with sepsis/MOFS exhibited an evident muscle disorder with oedema, infiltrate, atrophy and segmental necrosis. All fibre types showed decrease in diameter; specially fibre types IIA and IIB. Intramuscular capillaries were thickened and occluded, indexes of capillarity were slightly reduced, and fibre oxidative activity was decreased. At ultrastructural level fibres showed severe atrophy, contractile system disorganization and segmental necrosis. Capillaries were also altered and the mononuclear cell infiltrate was abundant and represented by macrophages, lymphocytes and mastocytes.
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PMID:Histochemical and ultrastructural study of skeletal muscle in patients with sepsis and multiple organ failure syndrome (MOFS). 947 42

Male Sprague-Dawley rats (350-500 g) were made septic by intraperitoneal injection of 200 mg/kg cecal material in 5% dextrose in water (D5W; 5 ml/kg). Control rats (n = 11) received D5W. Preparations were studied on days 1 (n = 7), 3 (n = 7), and 7 (n = 8) of sepsis. In isolated hearts, ventricular function was depressed on days 3 and 7 of sepsis. Densitometric analysis of myofilament proteins from septic rats separated by SDS-PAGE showed no differences in relative amounts of actin, troponin, tropomyosin and myosin light chains compared to control. Myofilament function, assessed by measuring ATPase activities, was altered during sepsis. CA(2+)-independent Mg-ATPase activity was elevated on days 1 and 3 of sepsis, returning toward control by day 7. Maximal ATPase activity was unchanged on day 1, but was increased on days 3 and 7 sepsis. Myofibrillar myosin K(EDTA)-, Ca(2+)-, and Mg(2+)-ATPase activities were not altered, nor were there any apparent changes in myosin heavy chain isoform populations. Our data are the first to demonstrate alterations in minimal and maximal ATPase activities and myofilament CA(2+)-sensitivity during chronic peritoneal sepsis. These alterations may contribute to observed changes in ventricular function.
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PMID:Cardiac myofilament protein function is altered during sepsis. 961 37

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