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

In the multiple organ dysfunction syndrome of sepsis and septic shock the heart is one of the organs subject to failure. Many new insights into the mechanisms underlying septic cardiomyopathy were gained in the last years. Experimental work with neonatal and adult cardiomyocytes considerably contributed to this progress, facilitating the documentation of direct attenuation of the contractions of the heart muscle cell by toxins and mediators, as well as investigating the underlying cellular mechanisms. With this respect, contractile-depressant effects have been found in cardiomyocytes for many toxins and sepsis mediators, with endotoxin, Pseudomonas exotoxin A, tumor necrosis factor alpha, interleukin-1 and nitric oxide being the most relevant ones identified. These substances interfere at clinically relevant concentrations with several main inotropic axes, not only with the beta-adrenoceptor/adenylyl cyclase and with the NO-cGMP-system-on which most of the interest is focused at present-but also with the alpha 1-adrenoceptor/phosphoinositide pathway and the Ca2+ homeostasis of the cardiomyocyte, the latter representing the common final inotropic pathway. Not a single cardiodepressant factor, but more likely a total bunch of toxins and mediators with different attack mechanisms seem to contribute to the picture of septic cardiomyopathy.
Mol Cell Biochem
PMID:Elucidating molecular mechanisms of septic cardiomyopathy--the cardiomyocyte model. 897 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.
J Mol Cell Cardiol 1997 Feb
PMID:Partial inhibition of protein synthesis by Pseudomonas exotoxin A deranges catecholamine sensitivity of cultured rat heart myocytes. 914 Aug 36

Cardiovascular derangements during sepsis may arise from a mismatch between endothelin (ET) and nitric oxide (NO). We hypothesized that progression of chronic peritoneal sepsis would affect cardiac performance and would modulate the concentrations of NO and ET in the heart and plasma. Male Sprague-Dawley rats (340-390 g) were catheterized and made septic with a cecal slurry (200 mg/kg: i.p.). Heart rate, mean arterial pressure, and plasma ET and nitrite/nitrate (NOX) were determined at 0, 4, 8, 12, 24, and 48 h after induction of sepsis. Septic rats were found to have tachycardia at 48 h following induction of sepsis. Mean arterial pressure and pulse pressure were not altered in septic and non-septic rats. In a separate series of experiments, the function of isolated hearts from septic and non-septic rats was assessed at preload pressures of 2, 5, and 10 mmHg. Sepsis produced a significant decrease in rates of pressure development and relaxation (+/-dP/dt) at 24 and 48 h as compared to the hearts of non-septic rats. In septic rats, plasma concentrations of ET were significantly increased at t = 4, 8, 12 h as compared to basal values, and at 12 h as compared to non-septic rats, and returned to basal levels at 24 and 48 h. In contrast, circulating NO levels did not become elevated until t = 8 h and remained elevated throughout the remaining times. In the left ventricle, the concentration of ET was found to be significantly increased both in septic and non-septic rats at 4 and 8 h as compared to t = 0 h. In the left ventricles of non-septic rats, ET levels returned to baseline values at 12 h, while in septic rats, the concentration of ET remained significantly elevated until 12 h. In septic rats, left ventricular NO levels were found to be significantly increased at t = 12 h. It appeared that induction of sepsis contributed to an imbalance in the plasma concentration of ET and NO 12 h after the induction of sepsis. However, a similar imbalance was not observed in the left ventricle. It is concluded from these observations that peritoneal sepsis in a chronic rat model produced a divergence of plasma NO and ET levels. This suggests a homeostatic imbalance between vasoactive mediators, i.e. ET and NO, could contribute to the cardiovascular derangements that occur during sepsis.
J Mol Cell Cardiol 1997 May
PMID:Sepsis alters myocardial and plasma concentrations of endothelin and nitric oxide in rats. 920 31

Transcription factors are DNA-binding proteins that regulate gene expression. Nuclear factor-kappa B (NF-kappa B) is a critical transcription factor for maximal expression of many cytokines that are involved in the pathogenesis of inflammatory diseases, such as adult respiratory distress syndrome (ARDS) and sepsis syndrome. Activation and regulation of NF-kappa B are tightly controlled by a group of inhibitory proteins (I kappa B) that sequester NF-kappa B in the cytoplasm of immune/inflammatory effector cells. NF-kappa B activation involves signaled phosphorylation, ubiquitination, and proteolysis of I kappa B. Liberated NF-kappa B migrates to the nucleus, where it binds to specific promoter sites and activates gene transcription. The activation of NF-kappa B initiates both extracellular and intracellular regulatory events that result in autoregulation of the inflammatory cascade through modulation of NF-kappa B activation. Recently, activation of NF-kappa B has been linked to ARDS and has been shown to be a critical proximal step in the initiation of neutrophilic inflammation in animal models. Activation of NF-kappa B can be inhibited in vivo by treatment with antioxidants, corticosteroids, and the induction of endotoxin tolerance. Identification of more specific and efficacious inhibitors of NF-kappa B activation might prove beneficial for the treatment of cytokine-mediated inflammatory diseases.
Am J Respir Cell Mol Biol 1997 Jul
PMID:The role of nuclear factor-kappa B in cytokine gene regulation. 922 3

The production of exoenzyme S is correlated with the ability of Pseudomonas aeruginosa to disseminate from epithelial colonization sites and cause a fatal sepsis in burn injury and acute lung infection models. Exoenzyme S is purified from culture supernatants as a non-covalent aggregate of two polypeptides, ExoS and ExoT. ExoS and ExoT are encoded by separate but highly similar genes, exoS and exoT. Clinical isolates that injure lung epithelium in vivo and that are cytotoxic in vitro possess exoT but lack exoS, suggesting that ExoS is not the cytotoxin responsible for the pathology and cell death measured in these assays. We constructed a specific mutation in exoT and showed that this strain, PA103 exoT::Tc, was cytotoxic in vitro and caused epithelial injury in vivo, indicating that another cytotoxin was responsible for the observed pathology. To identify the protein associated with acute cytotoxicity, we compared extracellular protein profiles of PA103, its isogenic non-cytotoxic derivative PA103 exsA::omega and several cytotoxic and non-cytotoxic P. aeruginosa clinical isolates. This analysis indicated that, in addition to expression of ExoT, expression of a 70-kDa protein correlated with the cytotoxic phenotype. Specific antibodies to the 70-kDa protein bound to extracellular proteins from cytotoxic isolates but failed to bind to similar antigen preparations from non-cytotoxic strains or PA103 exsA::omega. To clone the gene encoding this potential cytotoxin we used Tn5Tc mutagenesis and immunoblot screening to isolate an insertional mutant, PA103exoU:: Tn5Tc, which no longer expressed the 70-kDa extracellular protein but maintained expression of ExoT. PA103 exoU::Tn5Tc was non-cytotoxic and failed to injure the epithelium in an acute lung infection model. Complementation of PA103exoU::Tn5Tc with exoU restored cytotoxicity and epithelial injury. ExoU, ExoS and ExoT share similar promoter structures and an identical binding site for the transcriptional activator, ExsA, data consistent with their co-ordinate regulation. In addition, all three proteins are nearly identical in the first six amino acids, suggesting a common amino terminal motif that may be involved in the recognition of the type III secretory apparatus of P. aeruginosa.
Mol Microbiol 1997 Aug
PMID:ExoU expression by Pseudomonas aeruginosa correlates with acute cytotoxicity and epithelial injury. 930 17

The heart is a tumor necrosis factor (TNFalpha) producing organ. Locally (v systemically)-produced TNFalpha likely contributes to myocardial dysfunction via direct suppression of myocardial contractile function, the induction of myocardial apoptosis, and the genesis of cardiac hypertrophy. Although recent studies have demonstrated increased myocardial TNFalpha following endotoxemia, it remains unknown whether shock, in the absence of sepsis, activates myocardial nuclear factor kappa B (NFkappaB, a TNFalpha transcription factor) and/or increases TNFalpha in the heart. To study this, rats were hemorrhaged and resuscitated, after which hearts were harvested and analysed for evidence of NFkappaB activation (electrophoretic mobility shift assay) and assayed for TNFalpha levels. Hemorrhage and resuscitation activated NFkappaB and resulted in a dramatic increase in myocardial TNFalpha. This study constitutes the initial demonstration that hemorrhagic shock activates the signaling mechanisms which culminate in increased myocardial TNFalpha. Indeed, this may have important clinical implications, since hemorrhage is a frequent complication of both iatrogenic and accidental trauma, as well as a potent instigator of multiple organ failure.
J Mol Cell Cardiol 1997 Oct
PMID:Hemorrhage activates myocardial NFkappaB and increases TNF-alpha in the heart. 934 78

The surface of Streptococcus pneumoniae is decorated with a family of choline-binding proteins (CBPs) that are non-covalently bound to the phosphorylcholine of the teichoic acid. Two examples (PspA, a protective antigen, and LytA, the major autolysin) have been well characterized. We identified additional CPBs and characterized a new CBP, CbpA, as an adhesin and a determinant of virulence. Using choline immobilized on a solid matrix, a mixture of proteins from a pspA-deficient strain of pneumococcus was eluted in a choline-dependent fashion. Antisera to these proteins passively protected mice challenged in the peritoneum with a lethal dose of pneumococci. The predominant component of this mixture, CbpA, is a 75-kDa surface-exposed protein that reacts with human convalescent antisera. The deduced sequence from the corresponding gene showed a chimeric architecture with a unique N-terminal region and a C-terminal domain consisting of 10 repeated choline-binding domains nearly identical to PspA. A cbpA-deficient mutant showed a >50% reduction in adherence to cytokine-activated human cells and failed to bind to immobilized sialic acid or lacto-N-neotetraose, known pneumococcal ligands on eukaryotic cells. Carriage of this mutant in an animal model of nasopharyngeal colonization was reduced 100-fold. There was no difference between the parent strain and this mutant in an intraperitoneal model of sepsis. These data for CbpA extend the important functions of the CBP family to bacterial adherence and identify a pneumococcal vaccine candidate.
Mol Microbiol 1997 Sep
PMID:Contribution of novel choline-binding proteins to adherence, colonization and immunogenicity of Streptococcus pneumoniae. 936 8

Neonatal sepsis is a major cause of morbidity and mortality in newborn infants. Hematopoiesis and host defense in the neonate is developmentally immature compared with the adult. Defects in both the quantitative and qualitative aspects of the phagocytic system contribute significantly to a relative state of immunodeficiency in the neonate. Dysregulation of neonatal hematopoiesis and the immune response is a significant contributing factor to the increased susceptibility of the neonate to infection. A relatively small set of pluripotent stem cells gives rise to large numbers of functionally diverse mature effector cells. Cell proliferation and differentiation are regulated and controlled by highly specific protein factors, affecting single and multiple lineage hematopoiesis. Reduced neonatal rat myeloid progenitor pools, accelerated myeloid progenitor proliferative rates and decreased total body neutrophil storage pools predispose the newborn rat to depletion of mature effector neutrophils and a tendency to develop neutropenia during states of increased demand such as overwhelming bacterial infection. We review here the multifactorial complex biological process involved in the regulation of hematopoietic growth factors. We also review the biological effects of various non-lineage-committed and lineage-committed growth factors as reported in in vitro investigations and in vivo neonatal animal experiments. We also review our results of phase I/II clinical studies utilizing rhuG-CSF in neonates with presumed sepsis, and of rhuGM-CSF in very low birth weight neonates.
Cytokines Mol Ther 1995 Sep
PMID:The role of cytokines in modulating neonatal myelopoiesis and host defense. 938 73

Clinicians are constantly challenged by patients who demonstrate the ill effects of an uncontrolled host inflammatory response. Patients with sepsis and adult respiratory distress syndrome (ARDS) are frequently encountered examples of this syndrome. Despite advances in intensive care, mortality from these syndromes remains unchanged over the past two decades. In order to gain a better understanding of this pathophysiological response and to identify more specific therapeutic targets, the techniques of molecular biology have been applied to in vivo inflammatory models. Recent data indicate that the inflammatory response is dependent on the presence of both cytokines and adhesion molecules that mediate neutrophil-endothelial cell adhesive interactions. In this article, we review our experience using a lung model of inflammation that has provided insight into the events leading to injury. Cytokines [particularly, interleukin 1 (IL-1) and tumor necrosis factor alpha (TNF-alpha)], and endothelial, as well as leukocyte, adhesion molecules appear to coordinate a cascade of interactions between leukocytes and endothelial cells, which results in tissue injury.
Mol Med Today 1995 Apr
PMID:The role of cytokines and adhesion molecules in the development of inflammatory injury. 941 37

We measured the plasma levels of anti-inflammatory cytokines, including interleukin 1 receptor antagonist (IL-1ra), IL-4 and IL-10; inflammatory cytokines, including IL-2, IL-6, IL-8 and tumor necrosis factor receptor I and II (TNFR I and TNFR II); and endotoxin in 11 patients with septic shock associated with gram-negative bacteria and 12 patients with sepsis not associated with shock. The plasma levels of IL-1ra and IL-10 were elevated in the septic shock group compared with the sepsis group. TNFR I and TNFR II levels tend to be higher in the septic shock group. The plasma level of TRNF-alpha was significantly correlated with levels of IL-1ra, IL-4, IL-10, TNFR I, and TNFR II. The elevated levels of the anti-inflammatory cytokines, TNFR I, and TNFR II, appeared to reflect an attempt to suppress the shock syndrome.
Res Commun Mol Pathol Pharmacol 1997 Oct
PMID:Anti-inflammatory cytokine levels in patients with septic shock. 943 13


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