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

Recently, investigators have reported that heat shock proteins (HSPs) can protect isolated cells from cytotoxicity induced by two important mediators of sepsis: interleukin-1 and tumor necrosis factor. The present study was undertaken to examine the hypothesis that transient whole body hyperthermia could decrease mortality from subsequent challenge with gram-negative endotoxin. We demonstrate that heat pretreatments improved long-term survival fivefold in a mouse endotoxin model and this was correlated with the production of HSPs. There was a marked difference in individual organ expression of the inducible 72-kDa heat shock protein (HSP72). Heat treatments caused significant HSP72 formation in lung, liver, kidney, and small intestine, but much lesser formation in heart, brain, and abdominal wall muscle. Additional experiments demonstrated that the protective effect of hyperthermic treatments against an endotoxin challenge occurred early, i.e., 1 and 2 h after heating, was maximal at 12 h, and had significantly diminished by 48 h. The formation and decay of HSP72 demonstrated a time course that paralleled the survival curve from endotoxin challenge, thus suggesting a possible role for HSP72 in the protective effect. Surprisingly, and in contrast to studies reported in incubated cells, endotoxin alone did not cause significant formation of HSP72 in vivo.
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PMID:Hyperthermia protects mice against the lethal effects of endotoxin. 828 89

The hemodynamic effects of sepsis have been attributed in part to increased nitric oxide (NO) production and activation of guanylate cyclase, resulting in increased cGMP and relaxation of vascular smooth muscle. Heme oxygenase-1 (HO-1), a heat shock protein, has been shown to increase intracellular cGMP levels by formation of carbon monoxide (CO). We hypothesized that HO may be an important mediator of the hepatic response to infection. Male Swiss Webster mice underwent standard cecal ligation and puncture (CLP, 18 gauge 2X) or sham operation, and received either normal saline (NS) or Zn protoporphyrin IX (ZN PP IX), a competitive HO inhibitor (n = 6-8/group). Hepatic tissue samples were collected at 3, 6, 12, and 24 hr from separate mice. Serum was collected at 3 and 24 hr. A semiquantitative reverse transcriptase polymerase chain reaction method was used to measure HO-1 mRNA levels. Hepatic cGMP levels were measured by ELISA. Groups were repeated (n = 10/group) to assess mortality. Serum was collected at 3 and 24 hr to measure serum aspartate aminotransferase (AST) levels. HO-1 mRNA expression increased significantly by 3 hr after CLP and with HO inhibition alone (P < 0.05 vs sham + NS). HO-1 mRNA remained elevated through 24 hr. CLP animals with HO inhibition showed a significant reduction of hepatic cGMP following CLP compared with CLP + saline at 24 hr (P < 0.05). Mortality was significantly increased in the CLP + ZN PP group at 24 hr (P < 0.05 CLP NS vs CLP ZN PP). CLP caused a marked increase in AST activity, which was increased further with HO inhibition. HO-1 mRNA expression was induced by CLP. AST levels following CLP were markedly increased with HO inhibition. HO-1 function appeared to contribute to elevation of hepatic cGMP during peritonitis and may be an important hepatic adaptive response to infection.
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PMID:Heme oxygenase-dependent carbon monoxide production is a hepatic adaptive response to sepsis. 927 Dec 71

Induction of the heat shock response may improve outcome from pathophysiological disturbances. This improvement is associated with and believed to result from expression of heat shock protein (HSP)-70. Therefore, we examined the temporal expression of HSP-70 in an animal model of acute respiratory distress syndrome (ARDS) secondary to fecal peritonitis. Specifically, we hypothesize that sepsis in rats impairs pulmonary HSP-70 expression. ARDS was induced in adolescent rats via cecal ligation and double puncture (2CLP). Sham-operated animals served as controls. Lung tissue was collected 0, 3, 6, 16, 24, and 48 h after 2CLP and sham operation. Northern blot hybridization analysis was performed to detect steady-state HSP-70 messenger ribonucleic (mRNA) levels. HSP-70 protein levels were determined via immunoblotting and immunohistochemistry. Mortality after 2CLP was 50% at 24 h and 75% at 48 h. Northern blot hybridization analysis revealed no significant change in steady-state HSP-70 mRNA levels in lung at any time after 2CLP. HSP-70 steady-state mRNA levels increased after sham operation and was higher than values in 2CLP at 6, 16, and 24 h. HSP-70 protein levels did not change over time in either group. Thus, the expression of HSP-70 does not change after 2CLP. Although lack of an increase in protein levels may be adaptive after sham operation, it is not appropriate after 2CLP. Therefore, failed HSP-70 expression represents a form of pulmonary epithelial dysfunction that may contribute to lung injury in sepsis.
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PMID:Cecal ligation and double puncture impairs heat shock protein 70 (HSP-70) expression in the lungs of rats. 1063 64

We examined gene expression of heat shock protein 70 (HSP70) and heme oxygenase-1 (HO-1), which is the rate limiting enzyme in heme catabolism and is also known as heat shock protein 32 (HSP32), in the rat brain using a sepsis model induced by bacterial lipopolysaccharide (LPS). Intraperitoneal injection of LPS (10 mg/kg) to rats caused the elevation of body temperature and white blood cell (WBC) counts as well as marked elevation of serum interleukin-6 (IL-6) level, showing the typical pathological characteristics of sepsis. In this model, HO-1 mRNA increased at 6 h after LPS administration and continued to rise until 30 h. In contrast, HSP70 mRNA increased only between 3 h and 6 h after LPS administration, returning completely to the control level by 12 h. HO-1 mRNA was expressed predominantly in the cortex and the medulla oblongata, while HSP70 mRNA was expressed mainly in the striatum. HO-1 and HSP70 mRNA levels thus showed distinctive time courses and tissue distribution in the brain, suggesting that gene expression of these heat shock proteins (HSPs) is separately regulated.
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PMID:Differential induction of brain heme oxygenase-1 and heat shock protein 70 mRNA in sepsis. 1085 Mar 69

Induction of the heat shock response protects animals from either endotoxemia or peritonitis. In endotoxemia, heat shock protein (HSP) induction is associated with reversal of vascular hyporeactivity and inhibition of iNOS expression. Recent studies suggest differences in the inflammatory mechanisms during endotoxemia and peritonitis animal models and their response to therapeutic interventions. We therefore studied the effect of the HSP inducer sodium arsenite (SA) on vascular reactivity and iNOS expression in rats undergoing cecal ligation and puncture (CLP). CLP resulted in suppression of the pressor effect of norepinephrine (NE) in vivo (measured by changes in blood pressure in response to NE boluses) and ex vivo (changes in contraction force in isolated mesenteric arteries in response to NE concentrations), and in the expression of iNOS protein. Pretreatment of the rats with SA resulted in reversal of CLP-induced vascular hyporeactivity in vivo and ex vivo, and inhibition of iNOS expression after 22 h. SA pretreatment improved 7-day survival after CLP from 18.2% to 70% (P < 0.005). Glucocorticoid receptor inhibition did not affect the effect of HSP induction on iNOS expression. The similarity of the effect of HSP on vascular reactivity and iNOS expression in two distinct sepsis models suggests that this effect may be clinically important and that a causative relationship between HSP induction, iNOS inhibition, and reversal of vascular reactivity is likely.
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PMID:Effect of sodium arsenite on iNOS expression and vascular hyporeactivity associated with cecal ligation and puncture in the rat. 1119 61

Sepsis and its sequelae are still a major cause of morbidity and mortality on today's intensive care units. The evidence that endogenous mediators actually mediate the individual's response to infection has led to various approaches to assess the individual's contribution to the course of the disease. The role of an individual's genetic background and predisposition for the extent of inflammatory responses is determined by variabilities of genes encoding endogenous mediators that constitute the pathways of inflammation. Primary responses in inflammation are mediated by proinflammatory cytokines such as tumor necrosis factor and interleukin 1. Conversely, anti-inflammatory mediators are released and may induce a state of immunosuppression in sepsis. Pro- and anti-inflammatory responses contribute to the outcome of patients with systemic inflammation and sepsis. Therefore, all genes encoding proteins involved in the transduction of inflammatory processes are candidate genes to determine the human genetic background that is responsible for interindividual differences in systemic inflammatory responses to injury. The genetically determined capacity of cytokine production and release, heat shock protein expression, nitric oxide synthase activity, gene polymorphisms of coagulation factors or factors of the innate immune system-like defensins, and other genes involved in inflammation may contribute to a wide range of clinical manifestations of an inflammatory disease. Genomic information may be used to identify groups of patients with a high risk of developing severe sepsis and multiple organ dysfunction, and determining which patients will benefit from antimediator strategies because of their genetic determination to high cytokine release in the inflammatory response will be the subject of future trials.
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PMID:Effects of genomic polymorphisms on the course of sepsis: is there a concept for gene therapy? 1125 Oct 34

Enhanced expression of heat shock protein (HSP) has been shown to be protective against laboratory models of septic shock. Induction of HSPs to improve outcome in human disease has not been exploited because laboratory induction agents are themselves toxic and not clinically relevant. In this study, we demonstrate that a single dose of intravenous glutamine causes a rapid and significant increase in HSP25 and HSP72 expression in multiple organs of the unstressed Sprague-Dawley rat. With the utilization of a fluid-resuscitated rat model of endotoxemia, mortality was dramatically reduced by glutamine administration concomitant with the endotoxin injury. Endotoxin-treated animals given glutamine exhibited dramatic increases in tissue HSP expression and marked reduction of end-organ damage. These data suggest glutamine may protect against mortality and attenuate end-organ injury in endotoxemic shock via enhanced HSP expression. Furthermore, glutamine confers protection when administered at the initiation of sepsis, rather than as pretreatment. Thus glutamine appears to be a clinically viable enhancer of HSP expression and may prove beneficial in the therapy of sepsis and sepsis-induced organ injury.
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PMID:Glutamine induces heat shock protein and protects against endotoxin shock in the rat. 1135 7

The initial discovery of cardiac preconditioning has evolved into an exciting series of practical surgical applications. An enormous amount of evidence demonstrating both the safety and efficacy of ischemic preconditioning is available from animal studies. The challenging premise of intentionally subjecting patients and their organs to transient ischemia has acted as a formidable psychological and ethical impediment to the widespread clinical application of organ preconditioning. A more palatable alternative to ischemic preconditioning now involves approved medications designed to manipulate the cellular machinery mediating ischemic preconditioning. Pharmacologically induced preconditioning seems to confer equal organ protection. The relatively brief (but surgically relevant) window of protection provided by strategies such as ischemic preconditioning or adenosine agonists and potassium-adenosine triphosphate channel openers may, in the future, be extended. We have developed and reported the feasibility of liposomal delivery of heat shock protein to cardiac myocytes with subsequent protection against sepsis-induced dysfunction. Targeted strategies will ultimately broaden the therapeutic potential of organ preconditioning.
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PMID:Organ preconditioning. 1169 70

Tumor necrosis factor-alpha (TNF-alpha) depresses myocardial contractility, and overexpression of TNF-alpha in the myocardium contributes to cardiac dysfunction caused by both systemic and local insults. Sepsis, endotoxemia, hemorrhagic shock, and myocardial ischemia-reperfusion all promote cardiac dysfunction in part by a TNF-alpha-mediated mechanism. Thus, TNF-alpha represents an appealing therapeutic target for myocardial protection against multiple clinically relevant insults. The inducible 70-kD heat shock protein (Hsp70) is expressed in the myocardium in response to stress and has been linked to enhanced myocardial resistance to depression associated with ischemia-reperfusion or sepsis. The mechanism by which Hsp70 protects cardiac function against a subsequent insult remains obscure. In vitro induction of Hsp70 in monocytes or macrophages inhibits TNF-alpha production following bacterial lipopolysaccharide stimulation, and in vivo induction of Hsp70 down-regulates tissue TNF-alpha production following an injurious insult. Understanding of the regulatory role of Hsp70 in the myocardial inflammatory response will provide insights into the mechanism by which Hsp70 preserves cardiac function and may yield therapies for protection of the myocardium against depression associated injurious insults.
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PMID:The interaction between Hsp70 and TNF-alpha expression: a novel mechanism for protection of the myocardium against post-injury depression. 1202 52

In vascular smooth muscle, cyclic nucleotide-dependent phosphorylation of heat shock protein 20 (HSP20) on serine-16 (Ser16) has been suggested to cause force suppression, i.e., reduced force with only minimal myosin regulatory light chain (MRLC) dephosphorylation. We hypothesized that heat pretreatment also suppresses force by increasing HSP20 phosphorylation. After heat pretreatment of swine carotid artery at 44.5 degrees C for 4 h and reduction to 37 degrees C for 1 h, Ser16-HSP20 phosphorylation was increased and histamine-induced increases in contractile force were suppressed. Subsequent addition of nitroglycerin induced additive force suppression. Heat and nitroglycerin induced a similar relation between Ser16-HSP20 phosphorylation and force. Heat pretreatment induced a small, but significant, increase in total HSP20 immunostaining. These results demonstrate that vascular smooth muscle responds to thermal stress by increasing Ser16-HSP20 phosphorylation in addition to a possible small increase in total HSP20 concentration. The resulting heat-induced reduction in force should be considered "force suppression" because histamine-induced increases in MRLC phosphorylation were not significantly altered by heat pretreatment. These processes may bring about a resistance to contractile agonists, which could have clinical significance in conditions such as hyperthermia and/or sepsis with vasodilatory shock.
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PMID:Heat-induced force suppression and HSP20 phosphorylation in swine carotid media. 1213 54


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