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)

As the proliferative lesion of rheumatoid arthritis becomes polarized and invasion of articular cartilage and subchondral bone begins, it is likely that many mesenchymal cells, including periosteal and perichondral cells, and perhaps even the chondrocytes and osteoblasts themselves can be activated to produce destructive enzymes. Early in the course of RA cartilage proteoglycans are depleted, leaving the remaining collagen more susceptible to mechanical breakdown as well as to enzymatic breakdown. Specific collagenases are released by synovial cells and, in addition, by polymorphonuclear leukocytes. The latter enzyme may account for free collagenase found in synovial fluid, a finding possibly related to saturation of inhibitory proteins by proteases with greater affinity for them, leaving collagenase active. At this time in the course of rheumatoid arthritis, a joint would be under double jeopardy from enzymes released by the invading pannus as well as by collagenase free and active in the synovial fluid. Rapid destruction could occur. Although cartilage collagen has an intrinsic resistance to collagenase conferred by its primary structure and by higher order structure (e.g. intermolecular cross-links), it seems wise to cool down hot joints because increased temperature may increase the rate of collagen degradation and, therefore, cartilage destruction. In addition, superimposed sepsis or acute flares of rheumatoid disease result in enough influx of polymorphonuclear leukocytes into the joints to result in free collagenolytic activity being present. This provides a rationale for frequent aspiration of any joint fluid, septic or otherwise, containing high polymorphonuclear leukocyte counts.
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PMID:Collagenolytic systems in rheumatoid arthritis. 16 97

Recruitment of inflammatory cells to the lung capillaries has been proposed as an important step in the sequence of events that lead to acute lung injury. Frequently, in the clinical setting, bacteremia and sepsis syndrome precede the acute lung failure and endotoxin priming may represent a comparable paradigm, useful for experimental pursuit. Following addition of the chemotactic tripeptide FMLP (10(-9) to 10(-6) M) to the cell-free, salt solution perfusate of isolated rat lungs, only a small degree of vasoconstriction was observed. However, in lungs isolated from rats that received 2 mg/kg intraperitoneal Salmonella enteritidis endotoxin 2 h before lung perfusion, FMLP dose dependently caused a large, transient pulmonary pressor response, edema formation, and release of large amounts of thromboxane and leukotriene B4. Since in vitro priming with endotoxin, direct vascular injury by neutrophil elastase, nor direct stimulation with FMLP of pulmonary artery rings from endotoxin-pretreated rats, mimicked the effects of in vivo endotoxin priming, we conclude that the presence of inflammatory cells in the lung capillaries accounted for the large amount of eicosanoids produced by the lungs after FMLP stimulation. In fact, by retrograde lavage of the lung circulation with a collagenase solution, previously adherent cell clumps were mobilized and identified. These cell clumps, composed of red blood cells, neutrophils, and platelets, were not seen in the vascular lavage sediment obtained from unprimed control lungs. Indomethacin, a thromboxane antagonist, AA861, a 5-lipoxygenase inhibitor, and WEB 2086, a platelet-activating factor (PAF) antagonist, reduced the thromboxane synthesis and release after FMLP (10(-7) M) in in vivo endotoxin-primed lungs. None of the inhibitors employed exclusively inhibited only one particular eicosanoid mediator but rather affected the release of several mediators, suggesting a close link between the different synthetic arachidonic acid pathways. An inhibitor of phospholipase C (2-nitro-4-carboxyphenyl-N,N-diphenylcarbamate), NCDC, but not an inhibitor of phospholipase D (Wortmannin) or of protein kinase C (staurosporine) inhibited the FMLP-stimulated pulmonary pressure rise and eicosanoid release in endotoxin-primed lungs in vivo. Our data suggest that eicosanoids (in particular thromboxane) released from cells trapped in the lung circulation, but not from constitutive lung cells, contribute to vasoconstriction and edema formation caused by the chemoattractant FMLP in endotoxin-primed lungs.
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PMID:FMLP causes eicosanoid-dependent vasoconstriction and edema in lungs from endotoxin-primed rats. 154 53

Fifty isolates of Peptostreptococcus magnus from intraabdominal sepsis, nonpuerperal breast abscess, and diabetic foot infections were examined for collagenase activity using bovine type I collagen. Collagenase production was detected in a higher percentage of strains from nonpuerperal breast and diabetic foot specimens (P less than .001). This enzyme may be responsible for P. magnus playing a more central role in the pathogenesis of nonpuerperal breast abscess and diabetic foot disease than in intraabdominal sepsis.
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PMID:Anaerobic pathogenesis: collagenase production by Peptostreptococcus magnus and its relationship to site of infection. 185 Apr 43

In the previous report, we showed that the reticuloendothelial system (RES), especially the liver, played an important role in the etiology of bacteremia or sepsis as the major protective system. In this study, to investigate the role of Kupffer cells in the etiology of bacteremia, we isolated and cultured murine Kupffer cells using a technique involving perfusion with collagenase and DNase. We compared the adherence and phagocytosis rate of two groups of isolated bacteria from bacteremic mice by these cells. One group was bacteria causing systemic bacteremia consisted of P. aeruginosa and M. morganii, and the other was bacteria causing portal bacteremia consisted of E. coli, E. cloacae, K. pneumoniae and Enterococci. As a consequence, the following facts were revealed. 1. The bacterial phagocytosis and adherence rate by Kupffer cells were significantly higher in bacteria causing portal bacteremia than in bacteria causing systemic bacteremia. These data were correlated to each blood clearance rate from mice. 2. Blood clearance rate reflected mainly adherence of Kupffer cells to bacteria, and it was suggested that these adherence were one of the most important factor to protect the hosts from the advance of bacteremia from the portal to the systemic. 3. In the case of using peritoneal macrophage, we couldn't find the same correlation, so the possibility was suggested that the above phenomenon was specific to Kupffer cells.
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PMID:[Investigation on the etiology of sepsis by using experimental mouse model with leukocytopenia. 3. The role of Kupffer cells in the etiology of bacteremia]. 214 72

The high in-hospital mortality of ARDS has not diminished over the past 10 years, despite improvements in supportive intensive care. Much of the mortality arises from infections, particularly sepsis and pneumonia, and from organ failure, especially kidney failure. The rapid advances in understanding the interlocking pathophysiologic mechanisms of ARDS have not yet been translated into therapeutic trials of new methods for diminishing the injury or for stimulating normal repair. In part, this is because it is difficult to predict which high-risk patients will develop ARDS and then intervene early in the injury process. Patients in whom the risk for ARDS is extremely high have a very high mortality even without ARDS, thereby making efficacy of an early or prophylactic therapy quite difficult to prove. In spite of severe pathologic abnormalities, including fibrosis, early in the course of ARDS, most survivors return to almost normal pulmonary function. The few cases that have been studied with serial biopsies demonstrate resolution of fibrosis. This amazing recovery poses many fascinating questions about how the lung repairs itself. Given the heterogeneous causes of ARDS and the large number of structural, cellular, and biochemical abnormalities described, one can postulate that any one of numerous factors is important in normal repair. Most promising of these are the degree of basement membrane damage, the control of type II cell proliferation and differentiation, the control of collagen synthesis, the anatomic localization of fibrosis, and the control of collagenase action. These interactions of epithelial and mesenchymal tissues probably recreate the process of lung development in the injured adult lung. At a clinical level, the role of oxygen toxicity remains a significant issue. Oxygen acting as an oxidant may be partially responsible for the small airways disease seen in approximately one quarter to one third of survivors. The mortality data stress the need for better ways of preventing and diagnosing lung infections. Better definition of the clinical factors that put survivors at risk for persistent loss of lung function is also needed, and could define a subgroup in which trials of agents designed to improve repair would be most worthwhile. More information about the long-term pathologic course, though difficult to obtain, would also be very important. Perhaps some registry of ARDS survivors would permit closer follow-up and make available more late autopsy pathology when these people die of other causes. The rapid time course of ARDS provides an ideal testing ground for agents designed to either decrease lung injury or stimulate repair.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Pulmonary sequelae and lung repair in survivors of the adult respiratory distress syndrome. 333 67

Canine pancreata obtained at total pancreatectomy were cannulated via the ducts and perfused with collagenase to prepare a tissue suspension that was isografted into the spleen (preparation congruent to 2 h, mean graft vol = 10 +/- 1 ml containing 24% of the B-cell mass/pancreas). In 13 dogs the tissue was implanted by reflux into terminal splenic veins: two died postoperatively, and in two the intrasplenic vein wall was inadvertently punctured during cannulation. In the remaining nine, mean fasting blood glucose (BG) was less than or equal to 150 mg/dl initially; one was killed at 2 wk (distemper) and one at 6 wk (sepsis, diabetes), and one died at 9 wk (intestinal obstruction). Mean BG was 94 +/- 4 mg/dl at 1 mo and remained in this range until the dogs were killed at 5 mo (91 +/- 13 mg/dl). During glucose-tolerance testing 1 wk preimplantation and 1 mo and 2-3 mo postimplant, mean values were: K (decline in glucose concentration, %/min), 3.4 +/- 0.2, 1.4 +/- 0.1, and 1.5 +/- 0.1; peak insulin (microU/ml), 50 +/- 5, 12 +/- 1, and 11 +/- 2; fasting serum glucagon (pg/ml), 33 +/- 3, 59 +/- 12, and 53 +/- 9, with no change in the glucagon response. Histologically, the spleens contained prominent islets. In five other dogs, the tissue was injected into the splenic pulp: mean BG rose to greater than or equal to 250 mg/dl at 2 wk (compared with initial series, P less than 0.001) and remained elevated until death at 6 wk, when histologic examination of the spleens showed severe fibrosis and no islets. Apancreatic controls (N = 4) survived 10 +/- 3 days; BG was 343 +/- 11 mg/dl terminally. We conclude that this modified method for collagenase perfusion of a single large-mammal pancreas via the ducts provides sufficient viable islets to induce prolonged normoglycemia (5 mo) and preserve the response to glucose challenge. Reflux of pancreatic fragments into splenic veins appears more efficient than intrapulp implantation.
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PMID:Normoglycemia after reflux of islet-containing pancreatic fragments into the splenic vascular bed in dogs. 640 80

An increase in gluconeogenesis contributes to the cachexia seen in severe injury, sepsis, and malignancy by converting amino acids from skeletal muscle to glucose. Since tumor necrosis factor alpha (TNF alpha) may mediate this cachexia, we examined the effect of this cytokine on gluconeogenesis. Twenty-eight male Fischer rats were injected intraperitoneally with TNF alpha (250 micrograms/kg) or saline, and after 4 hours, isolated hepatocytes were obtained by in situ collagenase liver perfusion. Hepatocytes were incubated with alanine (10 mM), and rates of gluconeogenesis were determined. Plasma lactate, glucose, insulin, glucagon, cortisol, and amino acids were measured. TNF alpha administration resulted in a 50% increase in gluconeogenesis from alanine (P < 0.05) and a three-fold increase in plasma glucagon (P = 0.01). Total and glucogenic plasma amino acids decreased with TNF alpha injection (P < 0.05). In vivo TNF alpha causes an increase in hepatic gluconeogenesis associated with increased plasma glucagon.
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PMID:Tumor necrosis factor alpha stimulates gluconeogenesis from alanine in vivo. 763 Jan 67

Group B streptococci (GBS) are important pathogens in neonatal sepsis, pneumonia, and meningitis. The ability of GBS to invade the collagen-rich amniotic membrane of the placenta has been shown in vitro. In the presence of GBS, the collagen fibrils of the amnion appear disordered, suggesting a role for GBS in premature rupture of membranes. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis, Sephadex G-200 column chromatography, and gelatin zymograms were used in this study to characterize cell-associated collagenolytic activities of GBS. The synthetic peptide 2-furanacryloyl-Leu-Gly-Pro-Ala (FALGPA), which mimics the primary structure of collagen, was degraded by GBS USF704, a clinical isolate from the placenta of a septic newborn. Cells of GBS USF704 (9 x 10(7) CFU/ml) hydrolyzed 902 nmol of FALGPA over a 24-h period. As reported for zinc metalloenzymes such as collagenase, the hydrolysis of FALGPA by GBS was inhibited by addition of EDTA or 1,10-phenanthroline. Boiling of the cells resulted in loss of activity, while higher activity was observed with crude GBS cell lysates (hydrolysis of 970 nmol of FALGPA in 1.5 h). Antiserum raised against collagenase from Clostridium histolyticum was found to cross-react with cell-associated proteins produced by GBS and to inhibit GBS FALGPA hydrolysis. Twenty-five additional GBS clinical isolates were screened and found to have various levels of FALGPA hydrolytic activity. These observations suggest a cell-associated collagenolytic activity by GBS which may be involved in premature rupture of membranes and neonatal disease.
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PMID:Cell-associated collagenolytic activity by group B streptococci. 796 Jan 47

Vascular pathophysiology at the sites of bacterial infection and cancerous tissues share numerous common events similar to inflammatory tissue. Among them enhanced vascular permeability is the universal and hallmark event mediated by bradykinin. All 16 or more bacterial or fungal proteases we have examined activated one or more steps of the kinin generating Hageman-factor-kallikrein cascade. In the meantime, most of the microbial proteases rapidly inactivated various plasma inhibitors such as alpha 1-protease inhibitor and alpha 2-macroglobulin. In addition to the extracellular proteases, bacterial cell wall components (negatively charged LPS) of gram-negative bacteria and teichoic acid moieties of gram-positive bacteria activate the Hageman-factor-kallikrein system and exert hypotensive effects via kinin generation. Endotoxin (LPS) also induces nitric oxide synthase (NOS) which appears to exhibit a rather slow, but significant, effect in relaxing the vascular tone of the infected animal (thus hypotension). Furthermore, bacterial proteases can activate the matrix metalloproteinase (collagenase) resulting in exacerbation of tissue injury in the diseased animal. Many tumor cells or tissues excrete plasminogen activator, and hence activate plasminogen. The plasmin thus generated activates procollagenases, as well as the Hageman-factor-kallikrein system, resulting in pronounced extravasation. Fluid accumulation in pleural and ascitic carcinomatoses is largely due to the activated bradykinin-generating system. We can also demonstrate and control enhanced vascular permeability using kallikrein inhibitors, especially the polymer-conjugated soybean trypsin inhibitor which exhibits a prolonged plasma t1/2, kinin antagonists, NOS inhibitors, NO scavengers, inhibitors of prostaglandins and others. Bacterial proteases induce shock in mice which can be prevented by the soybean trypsin inhibitor by blocking the kallikrein-kinin cascade. Therapeutic use of kinin antagonists and a kallikrein inhibitor has been made for infectious diseases such as septicemia and in tumor pathology.
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PMID:Bradykinin and nitric oxide in infectious disease and cancer. 885 54

It is impossible to imagine modern medicine today without indwelling devices of various kinds. The time that these implants or prostheses remain in the patient's body can vary from a few hours, e.g. intravenous catheter, to his entire life, e.g. hip prosthesis, heart valve. Besides the indisputable use and advantages of this type of medical intervention for the patient, e.g. saving his life or improving its quality, the associated complications should not be overlooked. One of the most frequent and significant complications of implant surgery is the manifestation of infection in the tissue around the implant. That infection occurs is not surprising since the indwelling devices predispose to bacterial and mycotic infection on the one hand and impede its eradication on the other. The consequences of infection for the patient may mean the loss of regained mobility and independence, hospitalization for sepsis, or even death. Microbes per se are not necessarily pathogenic, however, there are numerous virulence factors which affect the degree of pathogenicity of the microorganisms. These include, for example, various enzymes, (e.g. catalase, hyaluronidase, collagenase and other proteases), and specific surface structures, e.g. the polysaccharide capsules of pneumococci or the lipopolysaccharides of Gram negative bacteria, and the production of bacterial toxins, e.g. leucozidin, streptolysine. The strategies which the pathogenic bacteria employ in their efforts to occupy the host include adherence, penetration and multiplication, antiphagocytosis and serum resistance, the formation of siderophores, antiimmunity, and cell and tissue damage. An attempt will be made here to present an overview of this multifactorial event in which the host obviously plays an important role.
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PMID:Relevance, pathogenicity and virulence of microorganisms in implant related infections. 903 48


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