Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0022116 (ischemia)
 91,303 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Hypoxia-ischemia induces an inflammatory response in the immature central nervous system that may be important for development of brain injury. Recent data implicate that chemoattractant cytokines, chemokines, are involved in the recruitment of immune cells. The aim was to study alpha- and beta-chemokines in relation to the temporal activation of inflammatory cells after hypoxia-ischemia in immature rats. Hypoxia-ischemia was induced in 7-day-old rats (left carotid artery occlusion + 7.7% oxygen). The pups were decapitated at different times after the insult. Immunohistochemistry was used for evaluation of the inflammatory cell response and RT-PCR to analyze the cytokine mRNA and chemokine mRNA expression. A distinct interleukin-1beta and tumor necrosis factor-alpha cytokine expression was found 0-24 h after hypoxia-ischemia that was accompanied by induction of alpha-chemokines (growth related gene and macrophage inflammatory protein-2). In the next phase, the beta2-integrin expression was increased (12 h and onward) and neutrophils transiently invaded the vessels and tissue in the infarct region. The mRNA induction for the beta-chemokines macrophage inflammatory protein-1alpha, macrophage inflammatory protein-1beta, and RANTES preceded the expression of markers for lymphocytes [cluster of differentiation (CD)4, CD8], microglia/macrophages (MHC I), and natural killer cells in the infarct area. The activation of microglia/macrophages, CD4 lymphocytes, and astroglia persisted up to at least 42 d of postnatal age implicating a chronic component of immunoinflammatory activation. The expression of mRNA for alpha- and beta-chemokines preceded the appearance of immune cells suggesting that these molecules may have a role in the inflammatory response to insults in the immature central nervous system.
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PMID:Chemokine and inflammatory cell response to hypoxia-ischemia in immature rats. 1020 41

We have analyzed chemokine mRNA expression in graft tissue of C3H/HEJ mice receiving allogeneic (C57BL/6) or xenogeneic [Lewis (LEW) rat donors] kidney grafts and correlated this with graft survival. Since donor-specific portal vein (pv) immunization is known to increase allo- and xenograft survival, in some cases recipients also received pretransplant pv or intravenous (iv) immunization; other animals received the antioxidant N-acetylcysteine (NAc) to examine the role of ischemia/reperfusion injury in the changes observed. Graft tissue and lymph nodes draining the respective grafts were obtained at various times posttransplantation and used for quantitative polymerase chain reaction analysis of mRNAs for different chemokines. In addition, lymphocytes were restimulated in culture with donor antigen and supernatants assayed for different cytokines. We observed that early increases in mRNA for MCP-1 preceded a polarization to type 2 cytokine production. Infusion of NAc twice daily for 4 days following transplantation further altered chemokine mRNA expression (increased MCP-1 and RANTES; decreased CINC); led to more enhanced type 2 cytokine production relative to control animals; and further increased xenograft survival. By use of heteroantibodies to different chemokines, anti-MCP-1 alone, but not antibodies to MIP-1alpha or RANTES, abolished this early polarization in cytokine production, implying a causal link between MCP-1 production and polarization in cytokine production. We conclude that manipulation of chemokine production early after transplantation might indirectly modify graft outcome by modifying cytokine production.
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PMID:Alterations in chemokine mRNA expression in animals receiving portal vein immunization and renal allo- or xenotransplantation precede altered cytokine production. 1052 5

Ischemia-reperfusion injury (IRI) is a major cause of renal dysfunction in both native kidneys and renal allografts. To broaden our understanding of the inflammatory mediators involved in IRI, we used multi-probe RNase protection assays to examine the expression of 26 different cytokine genes in a murine model of renal IRI. We observed that, in addition to up-regulation of IL-1beta and to a lesser extent TNF-alpha, IRI was associated with an intense and sustained up-regulation of three gp130-signaling cytokines, IL-6, IL-11, and leukemia inhibitory factor (LIF), as well as with up-regulation of the neutrophil chemotactic and activating mediator macrophage inflammatory protein (MIP)-2. Macrophage colony-stimulating factor (M-CSF) and monocyte chemoattractant protein (MCP)-1 were also moderately up-regulated after IRI, whereas mRNA levels of several other inflammatory mediators including IL-1alpha, IL-2, IL-4, interferon (IFN)-gamma, GM-CSF, and RANTES were minimally increased or remained undetectable. These findings identify MIP-2 as an attractive target for inhibition of leukocyte recruitment in renal IRI and also suggest a potentially novel role for gp130-mediated signals in IRI.
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PMID:Prominent and sustained up-regulation of gp130-signaling cytokines and the chemokine MIP-2 in murine renal ischemia-reperfusion injury. 1075 57

The specter of bioterrorism employing genetically engineered Rickettsia resistant to all antibiotics should reawaken the world's desire to elucidate the pathogenesis of typhus and spotted fever rickettsioses in a search for mechanisms vulnerable to interdiction. The pathogenetic sequence includes rickettsial entry into the dermis, hematogenous dissemination to vascular endothelial cells (most critically in brain and lungs), increased vascular permeability, edema, and immunity mediated by NK cells, IFN-gamma, TNF-alpha, RANTES, antibodies, and cytotoxic T lymphocytes. Silverman has demonstrated the role of reactive oxygen species (ROS) produced by R. rickettsii-infected endothelial cells in peroxidative damage to cell membranes in vitro, and Heinzen has described actin-based rickettsial intracellular mobility and intercellular spread. At this point the availability of sequences of rickettsial genomes and excellent animal models of rickettsioses have yielded insufficient progress towards the identification of rickettsial virulence factors and knowledge of the importance of injury mediated by ROS, phospholipase A(2), protease(s) or other mechanisms in vivo. Attention to the rickettsiosis-associated procoagulant state led to determination that hemostatic mechanisms largely prevent major hemorrhage without disseminated intravascular coagulation or thrombosis-mediated ischemia. Particularly lacking is knowledge of early events in vivo at the portal of entry in skin (or lung), of the effects of the inoculum medium (arthropod saliva or feces), mediators produced by infected endothelium under conditions of flow and of the contributions in vivo of immune effectors to pathology, of the role of apoptosis in rickettsial infection, and of the endothelial cell alterations that account for increased vascular permeability. The host cell receptor for the Rickettsia ligand and the mechanism of rickettsial escape from the phagosome need to be elucidated.
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PMID:Pathogenic mechanisms of diseases caused by Rickettsia. 1286 May 94

The main difference between cadaveric kidneys from donors with a heartbeat (HBD) and kidneys from nonheart-beating donors (NHBD) is related to warm ischemia/reperfusion time which constitutes an acute inflammatory process. On the contrary, brain death induces in HBD expression of pro-inflammatory adhesion molecules, making it important to evaluate this kind of molecules in both types of donors. Human renal biopsies from NHBD, HBD and normal kidneys (ischemia time = 0) were taken and frozen just before transplant. A semi-quantitative RT-PCR method was used to determine intracellular adhesion molecule 1 (ICAM-1), vascular cell adhesion molecule 1 (VCAM-1), lymphocyte function associated antigen (LFA-1), LFA-3, CD40, CD40 ligand (CD40L) and RANTES (regulated upon activation, normal T-cell expressed and secreted) gene expression. We have detected an elevated relative gene expression of ICAM-1, VCAM-1 and RANTES in NHBD biopsies compared with normal kidneys. In the case of RANTES, the gene expression from NHBD biopsies was higher than observed in HBD biopsies. The rest of genes were not augmented in any group. Preliminary data about early outcome of transplants indicates a correlation between pretransplant RANTES high gene expression levels and early post-transplant acute rejection. The gene expression of pro-inflammatory molecules like adhesion molecules and RANTES is augmented in kidneys from cadaveric NBD just before transplant. The expression is higher probably because of the prolonged warm ischemia period. A larger clinical study is necessary to clarify the effects of these variable expressions on the transplant outcome.
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PMID:Expression of adhesion molecules and RANTES in kidney transplant from nonheart-beating donors. 1573 Apr 95

Activation of the A2A adenosine receptor (A(2A)R) during reperfusion of various tissues has been found to markedly reduce ischemia-reperfusion injury. In this study, we used bone marrow transplantation (BMT) to create chimeric mice that either selectively lack or selectively express the A(2A)R on bone marrow-derived cells. Bolus i.p. injection of the selective A2A agonist, 4-[3-[6-amino-9-(5-cyclopropylcarbamoyl-3,4-dihydroxy-tetrahydro-furan-2-yl)-9H-purin-2-yl]-prop-2-ynyl]-piperidine-1-carboxylic acid methyl ester (ATL313; 3 microg/kg), at the time of reperfusion protects wild-type (wt) mice from liver ischemia-reperfusion injury. ATL313 also protects wt/wt (donor/recipient BMT mouse chimera) and wt/knockout chimera but produces modest protection of knockout/wt chimera as assessed by alanine aminotransferase activity, induction of cytokine transcripts (RANTES, IFN-gamma-inducible protein-10, IL-1alpha, IL-1-beta, IL-1Ralpha, IL-18, IL-6, and IFN-gamma), or histological criteria. ATL313, which is highly selective for the A(2A)R, produces more liver protection of chimeric BMT mice than 4-[3-[6-amino-9-(5-ethylcarbamoyl-3,4-dihydroxy-tetrahydro-furan-2-yl)-9H-purin-2-yl]-prop-2-ynyl]-cyclohexanecarboxylic acid methyl ester, which is rapidly metabolized in mice to produce 4-[3-[6-amino-9-(5-ethylcarbamoyl-3,4-dihydroxy-tetrahydro-furan-2-yl)-9H-purin-2-yl]-prop-2-ynyl]-cyclohexanecarboxylic acid, which has similar affinity for the A(2A)R and the proinflammatory A3 adenosine receptor. GFP chimera mice were created to show that vascular endothelial cells in the injured liver do not account for liver protection because they are not derived by transdifferentiation of bone marrow precursors. The data suggest that activation of the A(2A)R on bone marrow-derived cells is primarily responsible for protecting the liver from reperfusion injury.
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PMID:A2A adenosine receptors on bone marrow-derived cells protect liver from ischemia-reperfusion injury. 1581 35

Inflammation contributes to perinatal brain injury and can be induced by hypoxia-ischemia (HI) or exposure to infection (fetal inflammatory response). The anti-inflammatory cytokine interleukin-10 (IL10) has been shown to have neuroprotective effects following HI. To determine whether IL10 can reduce the inflammatory response to lipopolysaccharide (LPS) in microglial cell cultures, primary microglial (MG) and/or HAPI cells (new MG-like cell line) were treated with LPS (50 ng/ml) in the presence or absence of IL10 (20 ng/ml) for 0.5, 1, 4, and 8 h. TNFalpha, MIP-1alpha, and RANTES were assayed by ELISA. Chemokine receptors, CCR5, CXCR3, and CX3CR1 (fractalkine receptor) were assayed by semiquantitative RT-PCR. We found that in MG cell cultures TNFalpha, MIP-1alpha, and RANTES release after 8-h exposure to LPS was significantly higher compared to non-exposed MG cells (P < 0.001). In HAPI cell cultures similar stimulation of mRNA levels was found for TNFalpha, MIP-1alpha, CXCR3, and CX3CR1. IL10 inhibited TNFalpha, MIP-1alpha, and RANTES release of LPS-stimulated MG cells as well as TNFalpha, MIP-1alpha, and CXCR3 mRNA expression by HAPI cells after exposure to LPS (P < 0.05). In contrast to those inhibitory effects, there was no change in fractalkine, and a modest increase in CX3CR1 mRNA levels was found in the presence of IL10. We conclude that the inflammatory response induced in microglial cells by LPS can be markedly reduced by IL10. The increase in fractalkine receptor (CX3CR1) is also potentially protective. Our results suggest that treatment of damaging neuroinflammatory insults such hypoxia-ischemia, with IL10 may be protective for the immature brain.
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PMID:Interleukin-10 inhibits endotoxin-induced pro-inflammatory cytokines in microglial cell cultures. 1583 61

As a result of vascular injury, activated platelets will rapidly interact with circulating platelets, via membrane glycoprotein complex alphaIIbbeta3 (GPIIb-IIIa) and fibrinogen, to form a thrombus or a plug preventing fatal bleeding. In addition, platelets interacting with ruptured atherosclerotic plaques or with the surface of diseased vessels can aggregate and induce ischemia that prevents blood flow. However, increasing evidence has also shown that circulating platelets interact with leukocytes and endothelial cells, via specific adhesion molecules, in inflammation, vascular remodelling and thrombosis. The aim of this chapter is to present the importance of cell-cell interactions involving platelets and leukocytes in events related to inflammation, coagulation, vascular remodelling and thrombosis. A key adhesion molecule implicated in platelet interaction with leukocytes is P-selectin, also known as CD62P. It is present on activated platelets and endothelial cells, and its counterpart on leukocytes is known as P-selectin glycoprotein ligand-1 (PSGL-1). A critical co-factor leading to leukocyte activation in platelet-monocyte aggregate formation is the presence of a chemokine known as RANTES. It acts in concert with platelet P-selectin and PSGL-1 in monocyte stimulation.
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PMID:Platelet-leukocyte aggregates and derived microparticles in inflammation, vascular remodelling and thrombosis. 1614 74

Drug-eluting stents (DESs) deliver biphasic (early and late) elution of anti-inflammatory compounds. We therefore hypothesized that DESs would be associated with early reductions in inflammatory biomarker release after percutaneous coronary intervention (PCI). A total of 741 patients with non-ST-elevation acute coronary syndrome underwent PCI in the Randomized Trial to Evaluate the Relative PROTECTion against Post-PCI Microvascular Dysfunction and Post-PCI Ischemia among Anti-Platelet and Anti-Thrombotic Agents (PROTECT) Thrombolysis In Myocardial Infarction 30 study of eptifibatide and reduced-dose antithrombin compared with bivalirudin. Serial biomarkers C-reactive protein, troponin, creatine kinase-MB, soluble CD40 ligand, interleukin-6, prothrombin fragment F1.2, and RANTES (regulated on activation, normal T-cell expressed and secreted) were assessed through 24 hours after PCI. DES use was at the investigator's discretion. Patients treated with DESs (n = 665) versus bare metal stents (n = 139) were more likely to have patent arteries before PCI (92.0% vs 86.6%, p = 0.04), Thrombolysis In Myocardial Infarction myocardial perfusion grade 3 (57.9% vs 47.7%, p = 0.033), and the left anterior descending artery as the culprit artery (38.5% vs 18.3%, p <0.001). The increase in C-reactive protein and troponin was lower among patients undergoing DES implantation (median 2.1 vs 3.5 mg/L for C-reactive protein, median 0.11 vs 0.41 ng/ml for troponin), even after adjustment for randomized treatment, clopidogrel before treatment, diabetes mellitus status, epicardial patency, left anterior descending artery location, and myocardial perfusion (p = 0.036 and p = 0.039, respectively). Interleukin-6 was lower with DESs on univariate analysis but not multivariate analysis. Creatine kinase-MB, soluble sCD40 ligand, prothrombin fragment F1.2, and RANTES did not differ by DES use. In conclusion, patients undergoing DES implantation achieved more reductions in periprocedural markers of inflammation and necrosis than patients receiving bare metal stents among those with non-ST-elevation acute coronary syndrome.
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PMID:Comparison of effects of bare metal versus drug-eluting stent implantation on biomarker levels following percutaneous coronary intervention for non-ST-elevation acute coronary syndrome. 1705 55

Pulmonary ischemia-reperfusion (IR) injury entails acute activation of alveolar macrophages followed by neutrophil sequestration. Although proinflammatory cytokines and chemokines such as TNF-alpha and monocyte chemoattractant protein-1 (MCP-1) from macrophages are known to modulate acute IR injury, the contribution of alveolar epithelial cells to IR injury and their intercellular interactions with other cell types such as alveolar macrophages and neutrophils remain unclear. In this study, we tested the hypothesis that following IR, alveolar macrophage-produced TNF-alpha further induces alveolar epithelial cells to produce key chemokines that could then contribute to subsequent lung injury through the recruitment of neutrophils. Cultured RAW264.7 macrophages and MLE-12 alveolar epithelial cells were subjected to acute hypoxia-reoxygenation (H/R) as an in vitro model of pulmonary IR. H/R (3 h/1 h) significantly induced KC, MCP-1, macrophage inflammatory protein-2 (MIP-2), RANTES, and IL-6 (but not TNF-alpha) by MLE-12 cells, whereas H/R induced TNF-alpha, MCP-1, RANTES, MIP-1alpha, and MIP-2 (but not KC) by RAW264.7 cells. These results were confirmed using primary murine alveolar macrophages and primary alveolar type II cells. Importantly, using macrophage and epithelial coculture methods, the specific production of TNF-alpha by H/R-exposed RAW264.7 cells significantly induced proinflammatory cytokine/chemokine expression (KC, MCP-1, MIP-2, RANTES, and IL-6) by MLE-12 cells. Collectively, these results demonstrate that alveolar type II cells, in conjunction with alveolar macrophage-produced TNF-alpha, contribute to the initiation of acute pulmonary IR injury via a proinflammatory cascade. The release of key chemokines, such as KC and MIP-2, by activated type II cells may thus significantly contribute to neutrophil sequestration during IR injury.
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PMID:Proinflammatory response of alveolar epithelial cells is enhanced by alveolar macrophage-produced TNF-alpha during pulmonary ischemia-reperfusion injury. 1741 40


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