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)

Although studies blocking the Fas pathway indicate it can decrease organ damage while improving septic (cecal ligation and puncture, CLP) mouse survival, little is known about how Fas-Fas ligand (FasL) interactions mediate this protection at the tissue level. Here, we report that although Fas expression on splenocytes and hepatocytes is up-regulated by CLP and is inhibited by in vivo short interfering RNA, FasL as well as the frequency of CD8(+) T cells are differentially altered by sepsis in the spleen (no change in FasL, decreased percentage of CD8(+) and CD4(+) T cells) versus the liver (increased FasL expression on CD8(+) T cells and increase in percentage/number). Adoptive transfer of CLP FasL(+/+) versus FasL(-/-) mouse liver CD8(+) T cells to severe combined immunodeficient or RAG1(-/-) recipient mice indicated that these cells could induce inflammation. The FasL-mediated cytotoxic capacity of these septic mouse liver CD8(+) T cells was shown by their ability to damage directly cultured hepatocytes. Finally, although CD8(-/-) mice exhibited a reduction in both CLP-induced liver active caspase-3 staining and blood interleukin-6 levels, only FasL(-/-) (but not CD8(-/-)) protected the septic mouse spleen from increasing apoptosis. Thus, although truncating Fas-FasL signaling ameliorates many untoward effects of sepsis, the pathological mode of action is distinct at the tissue level.
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PMID:CD8+ T cells promote inflammation and apoptosis in the liver after sepsis: role of Fas-FasL. 1759 56

We hypothesized that progressive decline in myocardial performance would correlate with upregulation of markers for apoptotic mechanisms following increased duration of polymicrobial sepsis in the rat. Male Sprague-Dawley rats (350-400 g) were randomized into sham, 1-, 3- and 7-day sepsis groups. Each septic rat received 200 mg/kg cecal inoculum intraperitoneally (i.p). The post-mortem analysis showed a severely inflamed peritoneum with the presence of pus in all septic animals that was directly proportional to the duration of sepsis. We observed 10, 33 and 42% mortality in the 1-, 3- and 7-day sepsis groups, respectively. Septic animals at 3 and 7 days exhibited an increased wet lung/total body weight and heart weight/total body weight. A significant increase in total cardiac troponin I (cTnI) and C Reactive Protein (CRP) and endothelin-1 (ET-1) was also observed with an increased duration of sepsis. Myocardial ET-1 concentration in the 7-day post-sepsis group was significantly elevated compared to the sham and 1-day post-sepsis groups. Sepsis also produced a significant decrease in the mean arterial pressure in the 7-day post-sepsis group and tachycardia in the 1-, 3-, and 7-day post-sepsis groups compared to the sham group. A significant prolongation of the left ventricular isovolumic relaxation rate constant, tau, and left ventricular end-diastolic pressure in the 1-, 3- and 7-day post-sepsis groups compared to the sham group was observed. In addition, a significant decrease in the rates of left ventricular relaxation (-dP/dt) and contraction (+dP/dt) in the 3- and 7-day post-sepsis groups compared to the sham and 1-day post-sepsis group was observed. Sepsis produced a significant upregulation in the expression of myocardial TRADD, cytosolic active caspase-3, the Bax/Bcl(2) ratio, and the mitochondrial release of cytochrome C in the 3- and 7-day post-sepsis groups. We observed a progressive increase in the number of TUNEL positive nuclei, cytosolic caspase-3 activation and co-localization of PARP in the nuclei at 1, 3 and 7 days post-sepsis. These data suggest that the progression of sepsis from 1 day to 3-7 days produce distinct cardiodynamic characteristics with a more profound effect during later stages. The sepsis-induced decline in myocardial performance correlates with the induction of myocardial apoptosis.
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PMID:Distinct cardiodynamic and molecular characteristics during early and late stages of sepsis-induced myocardial dysfunction. 1761 71

Vibrio vulnificus is a marine bacterium and a human pathogen capable of causing wound infection and septicemia. We previously showed that the metalloprotease vEP secreted by V. vulnificus activates prothrombin in vitro. To further investigate the ability of vEP to activate other zymogens, we used a mutant form of procaspase-3 which lacks the native cleavage sites as a zymogen. The mutant zymogen was activated by vEP to yield a mature enzyme with a maximum increase in caspase-3 activity of approximately 14-fold in a time-dependent manner. However, the increase started to decline with prolonged incubation and with higher protease concentration as a result of further cleavage of the mature enzyme. Western blot analysis revealed a band of approximately 17 kDa for the cleavage product, which corresponded with the change in caspase-3 activity. The activated procaspase-3 by vEP was also able to cleave poly(ADP-ribose) polymerase in a cell-free system, and was inhibited by Ac-DEVD-CHO, a potent caspase-3 inhibitor. The results presented are the first to demonstrate the in vitro activation of one of the crucial enzymes involved in cell death by a bacterial extracellular metalloprotease.
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PMID:Procaspase-3 activation by a metalloprotease secreted from Vibrio vulnificus. 1778 92

Muscle wasting in chronic kidney disease (CKD) and other catabolic diseases (e.g. sepsis, diabetes, cancer) can occur despite adequate nutritional intake. It is now known that complications of these various disorders, including acidosis, insulin resistance, inflammation, and increased glucocorticoid and angiotensin II production, all activate the ubiquitin-proteasome system (UPS) to degrade muscle proteins. The initial step in this process is activation of caspase-3 to cleave the myofibril into its components (actin, myosin, troponin, and tropomyosin). Caspase-3 is required because the UPS minimally degrades the myofibril but rapidly degrades its component proteins. Caspase-3 activity is easily detected because it leaves a characteristic 14kD actin fragment in muscle samples. Preliminary evidence from several experimental models of catabolic diseases, as well as from studies in patients, indicates that this fragment could be a useful biomarker because it correlates well with the degree of muscle degradation in dialysis patients and in other catabolic conditions.
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PMID:Muscle wasting in chronic kidney disease: the role of the ubiquitin proteasome system and its clinical impact. 1798 22

The mechanisms responsible for myocardial dysfunction in the setting of sepsis remain undefined. Fas ligation with its cognate ligand (FasL) induces apoptosis and activates cellular inflammatory responses associated with tissue injury. We determined whether interruption of Fas/FasL interaction by cardiac-specific expression of soluble Fas (sFas), a competitive inhibitor of FasL, would improve myocardial dysfunction and inflammation in a lipopolysaccharide (LPS)-induced mouse model of sepsis. Wild-type (WT) and sFas transgenic mice were injected intraperitoneally with 10 mg/kg LPS or with an equivalent volume of saline. At 18 h after LPS administration, echocardiographic evaluation revealed a significant decrease in left ventricular fractional shortening in the WT mice, whereas the fractional shortening was preserved in the sFas mice. Activation of nuclear factor-kappa B (NF-kappaB) and the increase in the transcript levels of proinflammatory cytokines, tumor necrosis factor (TNF)-alpha, interleukin (IL)-1beta, and IL-6 resulting from LPS treatment were attenuated in the myocardium of sFas mice. sFas expression also inhibited LPS-induced upregulation of Toll-like receptor 4 (TLR-4) and inducible nitric oxide synthase (iNOS), and formation of peroxynitrite in the myocardium. LPS-induced increase in caspase-3/7 activity and apoptotic cell death were suppressed in sFas mice compared with WT mice. LPS-induced lung injury and increase in lung water content were also significantly reduced in sFas mice. These data indicate that neutralization of FasL by expression of sFas significantly preserves cardiac function and reduces inflammatory responses in the heart, suggesting that Fas/FasL signaling pathway is important in mediating the deleterious effects of LPS on myocardial function.
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PMID:Protection against lipopolysaccharide-induced myocardial dysfunction in mice by cardiac-specific expression of soluble Fas. 1799 50

Sepsis induces widespread lymphocyte apoptosis, resulting in impaired immune defenses and increased morbidity and mortality. There are multiple potential triggers or signaling molecules involved in mediating death signals. Elucidating the specific signaling pathways that are involved in mediating lymphocyte apoptosis may lead to improved therapies of this lethal disorder. We investigated a number of key cellular receptors and intracellular signaling pathways that may be responsible for apoptotic cell death. Specifically, we investigated the role of pathogen-associated molecular patterns (TLR2, TLR4, and IL-1R), intracellular signaling proteins (MyD88 and TRIF), cytoplasmic transcription factors (STAT1 and STAT4), and the MAPK pathway (JNK1) in sepsis-induced lymphocyte apoptosis. Studies were performed in the cecal ligation and puncture (CLP) model of sepsis using specific gene-targeted deletions. CLP-induced lymphocyte apoptosis was evaluated 20 h post-operation by active caspase-3 and TUNEL staining. Surprisingly, the only genetic construct that ameliorated T and B lymphocyte sepsis-induced apoptosis ( approximately 80% and 85%, respectively) occurred in MyD88(-/-) mice. Despite the marked decrease in sepsis-induced apoptosis, MyD88(-/-) mice had a worsened survival. In conclusion, lymphocyte death in sepsis likely involves multiple pathogen-sensing receptors and redundant signaling pathways. MyD88 was effective in blocking apoptosis, as it is essential in mediating most pathogen recognition pathways; however, MyD88 is also critical for host survival in a model of severe peritonitis.
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PMID:Deletion of MyD88 markedly attenuates sepsis-induced T and B lymphocyte apoptosis but worsens survival. 1821 65

The use of glucocorticoids for treatment of sepsis has waxed and waned during the past several decades, and recent randomized controlled trials have evoked a reassessment of this therapy. Most glucocorticoid actions are mediated by its specific intracellular receptors (GRs). Thus we initially evaluated whether sepsis and high-dose corticosteroid therapy can regulate guinea pig pulmonary expression of GRs: active receptor, GRalpha, and dominant negative receptor, GRbeta. Sepsis induction by LPS injection (300 mug/kg ip) decreased mRNA and protein levels of GRalpha and increased protein expression of GRbeta in lungs. High-dose methylprednisolone (40 mg/kg ip), administered simultaneously with LPS, markedly potentiated the decrease in GRalpha expression but slightly affected the increase in GRbeta expression. Consequently, this led to a significant reduction in GRalpha nuclear translocation. Nevertheless, methylprednisolone treatment strongly eliminated LPS induction of NF-kappaB activity, as determined by NF-kappaB nuclear translocation and by gel mobility shift assays. Furthermore, the LPS-induced increase in inflammatory cells in bronchoalveolar lavage fluid was blunted by administration of the corticosteroid. On the other hand, immunofluorescent staining for cleaved caspase-3 showed a marked increase in this proapoptotic marker in lung sections, and terminal deoxynucleotidyl transferase dUTP-mediated nick-end labeling (TUNEL) represented an enhanced appearance of cell apoptosis in lungs and spleen when methylprednisolone was given together with LPS. Cell apoptosis is now considered to play a role in the pathogenesis of septic syndrome. We thus suggest that the action of glucocorticoids at high doses to accelerate sepsis-induced cell apoptosis may overwhelm their therapeutic advantages in septic shock.
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PMID:Modulation of glucocorticoid receptor expression, inflammation, and cell apoptosis in septic guinea pig lungs using methylprednisolone. 1883 31

During Vibrio vulnificus infection, V. vulnificus reaches the intestine and then invades the bloodstream by crossing the intestinal mucosal barrier of the host, which results in systemic septicemia. Previously, we reported that the RtxA toxin secreted through the RtxE transporter contributes to the cytotoxicity of V. vulnificus against intestinal epithelial cells. Here, we used gene mutants of rtxE and rtxA to determine the role that V. vulnificus RtxA toxin plays in the apoptotic death of human intestinal epithelial cells. The levels of DNA fragmentation were lower in human epithelial cells infected with an rtxE mutant of V. vulnificus than in those that were infected with the wild type. In addition, the rtxE mutant was found to induce lower levels of TUNEL positive cells and cell cycle arrest at the subG(1) than the wild type V. vulnificus. Furthermore, the decreased levels of DNA fragmentation, TUNEL positive cells and subG(1) arrest by the rtxE gene mutation were restored by the complementation of an rtxE gene into the rtxE mutant V. vulnificus. Finally, the rtxA mutant induced significantly lower levels of apoptotic cell death than the wild type. The levels of the PARP, cytochrome c, caspase-3, and mitochondrial membrane depolarization were lower in human epithelial cells infected with the rtxE and rtxA mutants, compared with the wild type and rtxE gene-complemented strains of V. vulnificus. Taken together, these results indicate that V. vulnificus RtxA toxin induces the apoptotic death through a mitochondria-dependent pathway in human intestinal epithelial cells exposed to V. vulnificus.
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PMID:Vibrio vulnificus RTX toxin plays an important role in the apoptotic death of human intestinal epithelial cells exposed to Vibrio vulnificus. 1884 6

Recent studies have shown that increased lymphocyte apoptosis contributes to sepsis-induced mortality. Furthermore, studies have demonstrated that IL-10 can suppress lymphocyte apoptosis, in part, by upregulating Bcl-2 expression and interfering with activation induced cell death. We have previously shown that intrathymic delivery of IL-10 with an adenoviral vector in wild-type mice significantly improves outcome to sepsis. Presently, we investigated the role of endogenous IL-10 expression on thymocyte apoptosis and outcome in IL-10 null mice subject to induction of generalized polymicrobial peritonitis via cecal ligation and puncture. Compared to wild-type C57BL/6 mice, IL-10 null mice demonstrated increased mortality and enhanced lymphocyte apoptosis. Intrathymic injection with an adenoviral vector expressing human IL-10 prior to cecal ligation and puncture in IL-10 null mice significantly improved outcome and decreased thymic caspase-3 activity. Furthermore, plasma concentrations of IL-6 were also significantly reduced in IL-10 null mice treated with the IL-10 expressing adenovirus. In contrast, injection of a control adenovirus did not improve outcome in IL-10 null mice, nor was caspase-3 activity reduced. Thus, local thymic expression of IL-10 not only improves outcome but also reduces local tissue apoptosis and caspase-3 activity, and appears to attenuate the systemic proinflammatory cytokine response.
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PMID:Endogenous IL-10 regulates sepsis-induced thymic apoptosis and improves survival in septic IL-10 null mice. 1895 26

The need for identification of specific modes of cell death, like apoptosis and necrosis, is driven by their detrimental or beneficial effect in different forms of disease, and the need in many instances of disease to modulate their levels. Apoptosis, an organized, gene-driven, and often energy-dependent mode of cell death, may be identified in tissue sections by its distinct morphological features, DNA degradation that is executed by endonucleases, and by presence of certain proteins, like the activated caspases. In the kidney, apoptosis is central to the development of a normal healthy kidney and it has been noted in glomeruli, the tubulo-interstitium, and renal vasculature in renal diseases or syndromes as diverse as acute kidney injury and chronic kidney disease of various causes, renal complications of diabetes and hypertension, sepsis, immune disorders and inflammation, nephrotoxicity, and in the development, progression, and treatment of renal cancers. Many research articles analyze apoptosis in tissue sections using the TUNEL assay that detects DNA strand breaks in situ in tissue sections. This method has been criticized because of false-positive or false-negative findings, and in situ analysis of activated caspase-3, thought to be the "executioner" caspase in the apoptotic pathway, may be a good alternative for quantifying apoptosis by light microscopy. The morphology of apoptosis, however, remains a standard that should not be ignored. This chapter reviews current methods of identifying apoptosis in tissue sections, with an emphasis on identification and quantification in the kidney using molecular methods.
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PMID:Identification of apoptosis in kidney tissue sections. 1914 10

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