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:C0038454 (stroke)
147,016 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Atherosclerosis, an underlying cause of myocardial infarction, stroke, and other cardiovascular diseases, consists of focal plaques characterized by cholesterol deposition, fibrosis, and inflammation. The presence of activated T lymphocytes and macrophages and high expression of HLA class II molecules are indicative of a local immunologic activation in the atherosclerotic plaque, but the antigen(s) involved has not yet been identified. We established T-cell clones from human atherosclerotic plaques using polyclonal mitogens as stimuli and exposed the clones to potential antigens in the presence of autologous monocytes as antigen-presenting cells. Four of the 27 CD4+ clones responded to oxidized low density lipoprotein (oxLDL) by proliferation and cytokine secretion; this response was dependent on autologous antigen-presenting cells and restricted by HLA-DR. All clones that responded to oxLDL secreted interferon gamma upon activation, but only one produced interleukin 4, suggesting that the response to oxLDL results in immune activation and inflammation but may not be a strong stimulus to antibody production. No significant response to oxLDL could be detected in CD4+ T-cell clones derived from the peripheral blood of the same individuals. Together, the present data suggest that the inflammatory infiltrate in the atherosclerotic plaque is involved in a T-cell-dependent, autoimmune response to oxLDL.
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PMID:T lymphocytes from human atherosclerotic plaques recognize oxidized low density lipoprotein. 773 3

Perivascular accumulation of mononuclear cells (MNCs) in the central nervous system (CNS) and high levels of myelin autoantigen-reactive T cells in blood and further enriched in cerebrospinal fluid (CSF) are characteristic for multiple sclerosis (MS) and suggest a role for immunoregulatory cytokines in MS pathogenesis. The difficulties inherent to measurements of cytokine concentrations in body fluids have been partly overcome by adopting techniques allowing cytokine determinations on cellular level. MS is associated with the parallel up-regulation of proinflammatory [interferon-gamma (IFN-gamma), tumor necrosis factor-alpha (TNF-alpha), lymphotoxin-alpha, and interleukin (IL)-12] and immune response-down-regulating [transforming growth factor-beta (TGF-beta), IL-10] cytokines systemically. A preferential up-modulation of TNF-alpha and lymphotoxin-alpha is observed in clinical exacerbations and of TGF-beta and IL-10 in remissions. The B cell-stimulating IL-4 and IL-6 are also up-regulated in MS, as is the cytolysis-promoting perforin. Cytokine production is elevated to an even higher degree in the CSF than systemically, underlining the autonomy of the immune responses in the CSF. All cytokine abnormalities are demonstrable already in very early MS, manifested by acute unilateral optic neuritis associated with more than two MS-like lesions on brain magnetic resonance imaging and oligoclonal IgG bands in CSF. The cytokine abnormalities hitherto observed are not MS specific, because they can be found in other inflammatory CNS diseases, e.g., aseptic meningitis and even noninflammatory neurological diseases like stroke. The influence on cytokine profiles, e.g., suppressing proinflammatory cytokines and promoting TGF-beta and IL-10, could be an important way to identify new and promising treatments of MS.
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PMID:Review: cytokines and the pathogenesis of multiple sclerosis. 887 92

Large granular lymphocyte leukemia (LGLL) is defined as clonal proliferation of LGLs in peripheral blood. The following studies were conducted to address some issues in chronic LGLL. (1) Chronic LGLL is characterized by the indolent course, and the diagnosis of leukemia is difficult in such patients as those without distinct organomegaly and/or any evidence of monoclonality. We performed immunohistological studies in a patient with persistent NK lymphocytosis. No organomegaly had been seen in the patient during a three-year-observation, who died from cerebrovascular accident. The autopsy findings revealed multi-organ infiltration including spleen, liver, bone marrow, lymph nodes and lung. These findings suggest that the cells of chronic LGLL have infiltrative capacity characteristic of malignant cells. (2) Lymphocytosis in chronic LGLL is usually stable for a long period. We found that both T- and NK-LGLL cells strongly expressed CD95, an apoptosis related protein. Anit-CD95 did not induce apoptosis, but suppressed proliferation induced by IL-2 or anti-CD3. These results suggest that CD95-CD95 ligand system is involved in the slow cell growth characteristic of chronic LGLL. (3) CD4+CD8+ double positive (DP) cases are rarely seen in LGLL, and the physiologic counterpart of the leukemic cells has not been determined yet. We found that the DP-LGLL had alpha alpha type in the CD8 subunit and did not express RAG-1, these findings being characteristic of peripheral T cells. We also found that they expressed IL-4 mRNA and secreted IL-4 on activation. These results strongly suggest that DP-T-LGLL represents an expansion of a rare subset of peripheral DP-T cells, possibly derived from IL-4 activated CD4 single positive T cells.
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PMID:[Large granular lymphocyte leukemia]. 893 81

Ischemic stroke is associated with altered systemic immune responses both early after the onset and in the recovery phase. Interleukin (IL)-10, a Th2 related cytokine, has multiple effects on different cell types, including T and B lymphocytes, monocytes, neutrophils and mast cells. IL-4 is another Th2 cytokine that inhibits the synthesis of pro-inflammatory cytokines by Th1 clones. We used enzyme-linked immunospot assays to detect and enumerate blood mononuclear cells (MNC) secreting IL-10 and IL-4 spontaneously as well as after stimulation with myelin basic protein (MBP), considered to be an autoantigen of possible pathogenic importance in, for example, multiple sclerosis, to evaluate the involvement of anti-inflammatory cytokines in ischemic stroke. All patients with ischemic stroke and cerebral hemorrhage had strongly elevated numbers of IL-10 secreting blood MNC compared with healthy individuals. Numbers of MBP-reactive IL-10 secreting blood MNC were also elevated in a proportion of the patients with stroke and hemorrhage. Levels of IL-4 secreting blood MNC did not differ in ischemic stroke versus healthy individuals. The anti-inflammatory IL-10 could play a pivotal role in ischemic stroke as well as cerebral hemorrhage.
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PMID:High levels of IL-10 secreting cells are present in blood in cerebrovascular diseases. 1036 96

Oral tolerance is a long recognized method to induce peripheral immune tolerance. Oral tolerance has been used successfully to treat animal models of autoimmune diseases and is being tested in human diseases. Low doses of oral antigen induce active suppression, whereas high doses induce clonal anergy and deletion. Oral antigen preferentially generates a Th2(IL-4/IL-10)- or a Th3(TGF-beta)-type response. Th3-type cells are a unique T-cell subset which primarily secrete TGF-beta, provide help for IgA and have suppressive properties for Th1 and other immune cells. Th3-type cells appear distinct from the Th2 cells as CD4(+) TGF-beta-secreting cells with suppressive properties in the gut have been generated from IL-4-deficient animals. In vitro differentiation of Th3-type cells from Th0 precursors from TCR transgenic mice is enhanced by culture with TGF-beta, IL-4, IL-10 and anti-IL-12. Because regulatory T cells generated by oral antigen are triggered in an antigen-specific fashion but suppress in an antigen-nonspecific fashion, they mediate bystander suppression when they encounter the fed autoantigen at the target organ. Thus, mucosal tolerance can be used to treat inflammatory processes that are not autoimmune in nature. Mucosal antigen has also been used to treat animal models of stroke and of Alzheimer's disease. Induction of low-dose oral tolerance is enhanced by oral administration of IL-4 and IL-10. Coupling antigen to CTB or administration of Flt-3 ligand enhances oral tolerance. Anti-B7.2 but not anti-B7.1 blocks low-dose, but not high-dose oral tolerance. High-dose oral tolerance is blocked by anti-CTLA-4. CD25(+) CD4(+) regulatory T-cell function also appears to be related to TFG-beta.
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PMID:Oral tolerance: immune mechanisms and the generation of Th3-type TGF-beta-secreting regulatory cells. 1156 43

We sought to assess the anti-inflammatory properties of unfractionated heparin (UFH) in patients with ischemic stroke treated within 24 h from the onset of symptoms. We studied prospectively 167 patients that received 1000 IU/h intravenous UFH (n=70) or 300 mg oral aspirin (n=97) at a mean treatment delay of 6.7 h. Repeated plasma levels of interleukin (IL)-6, IL-10, IL-4, tumor necrosis factor (TNF)-alpha, soluble intercellular adhesion molecule-1 (sICAM-1), and soluble vascular cell adhesion molecule-1 (sVCAM-1) were compared in both groups using multivariate analyses. Whereas TNF-alpha and sICAM-1 decreased at 48 h, IL-6, IL-4, and sVCAM-1 increased compared with baseline values (P<0.01). The rise of sVCAM-1 levels at 48 h was significantly lower in patients treated with UFH (P=0.017) and a two-fold increase of baseline sVCAM-1 was an independent predictor of poor outcome (odds ratio, 2.19, 1.1-4.39). These results suggest that adjusted high-dose UFH has anti-inflammatory effects which might improve recovery if administered early after stroke onset.
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PMID:Unfractionated heparin is associated with a lower rise of serum vascular cell adhesion molecule-1 in acute ischemic stroke patients. 1214 13

Multiple mechanisms of tolerance are induced by oral antigen. Low doses favor active suppression, whereas higher doses favor clonal anergy/deletion. Oral antigen induces T-helper 2 [interleukin (IL)-4/IL-10] and Th3 [transforming growth factor (TGF)-beta] T cells plus CD4+CD25+ regulatory cells and latency-associated peptide+ T cells. Induction of oral tolerance is enhanced by IL-4, IL-10, anti-IL-12, TGF-beta, cholera toxin B subunit, Flt-3 ligand, and anti-CD40 ligand. Oral (and nasal) antigen administration suppresses animal models of autoimmune diseases including experimental autoimmune encephalitis, uveitis, thyroiditis, myasthenia, arthritis, and diabetes in the non-obese diabetic (NOD) mouse, plus non-autoimmune diseases such as asthma, atherosclerosis, graft rejection, allergy, colitis, stroke, and models of Alzheimer's disease. Oral tolerance has been tested in human autoimmune diseases including multiple sclerosis (MS), arthritis, uveitis, and diabetes and in allergy, contact sensitivity to dinitrochlorobenzene (DNCB), and nickel allergy. Although positive results have been observed in phase II trials, no effect was observed in phase III trials of CII in rheumatoid arthritis or oral myelin and glatiramer acetate (GA) in MS. Large placebo effects were observed, and new trials of oral GA are underway. Oral insulin has recently been shown to delay onset of diabetes in at-risk populations, and confirmatory trials of oral insulin are being planned. Mucosal tolerance is an attractive approach for treatment of autoimmune and inflammatory diseases because of lack of toxicity, ease of administration over time, and antigen-specific mechanisms of action. The successful application of oral tolerance for the treatment of human diseases will depend on dose, developing immune markers to assess immunologic effects, route (nasal versus oral), formulation, mucosal adjuvants, combination therapy, and early therapy.
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PMID:Oral tolerance. 1604 53

The microvasculature of the brain region affected by a stroke assumes an inflammatory phenotype that is characterized by endothelial cell activation and barrier dysfunction and the recruitment of adherent leukocytes. Although most attention has been devoted to the possible role of neutrophils in the tissue responses to ischemic stroke there is evidence that T-lymphocytes also accumulate in the postischemic brain. Although comparable detailed analyses of lymphocyte involvement in ischemic brain injury have not been performed, emerging findings suggest a role for T-cells in the pathogenesis of ischemic stroke. The recruitment of T-cells to the site of brain injury is critically dependent on the coordinated expression of adhesion molecules on the activated capillary endothelium. Whether the recruited lymphocytes are acting directly on brain tissue or indirectly through activation of other circulating blood cells and/or extravascular cells remain unclear. Cytotoxic CD8+ T-cells may induce brain injury through molecules released from their cytotoxic granules. CD4+ T-helper 1 (TH1) cells, which secrete proinflammatory cytokines, including interleukin-2 (IL-2), IL-12, interferon-gamma, and tumor necrosis factor-alpha, may play a key role in the pathogenesis of stroke, whereas CD4+TH2 cells may play a protective role through anti-inflammatory cytokines such as IL-4, IL-5, IL-10, and IL-13. T-cells should be considered as therapeutic targets for ischemic stroke. However, because infection is a leading cause of mortality in the postacute phase of ischemic stroke, and considering anti-inflammatory role of CD4+TH2, treatment targeting T-cells should be carefully designed to reduce deleterious and enhance protective actions of T-cells.
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PMID:Stroke and T-cells. 1624 83

Oral tolerance is classically defined as the suppression of immune responses to antigens (Ag) that have been administered previously by the oral route. Multiple mechanisms of tolerance are induced by oral Ag. Low doses favor active suppression, whereas higher doses favor clonal anergy/deletion. Oral Ag induces Th2 (IL-4/IL-10) and Th3 (TGF-beta) regulatory T cells (Tregs) plus CD4+CD25+ regulatory cells and LAP+T cells. Induction of oral tolerance is enhanced by IL-4, IL-10, anti-IL-12, TGF-beta, cholera toxin B subunit (CTB), Flt-3 ligand, anti-CD40 ligand and continuous feeding of Ag. In addition to oral tolerance, nasal tolerance has also been shown to be effective in suppressing inflammatory conditions with the advantage of a lower dose requirement. Oral and nasal tolerance suppress several animal models of autoimmune diseases including experimental allergic encephalomyelitis (EAE), uveitis, thyroiditis, myasthenia, arthritis and diabetes in the nonobese diabetic (NOD) mouse, plus non-autoimmune diseases such as asthma, atherosclerosis, colitis and stroke. Oral tolerance has been tested in human autoimmune diseases including MS, arthritis, uveitis and diabetes and in allergy, contact sensitivity to DNCB, nickel allergy. Positive results have been observed in phase II trials and new trials for arthritis, MS and diabetes are underway. Mucosal tolerance is an attractive approach for treatment of autoimmune and inflammatory diseases because of lack of toxicity, ease of administration over time and Ag-specific mechanism of action. The successful application of oral tolerance for the treatment of human diseases will depend on dose, developing immune markers to assess immunologic effects, route (nasal versus oral), formulation, mucosal adjuvants, combination therapy and early therapy.
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PMID:Oral tolerance: therapeutic implications for autoimmune diseases. 1716 57

Atherosclerosis is a chronic inflammatory disease of the vasculature commonly leading to myocardial infarction and stroke. We show that IL-33, which is a novel IL-1-like cytokine that signals via ST2, can reduce atherosclerosis development in ApoE(-/-) mice on a high-fat diet. IL-33 and ST2 are present in the normal and atherosclerotic vasculature of mice and humans. Although control PBS-treated mice developed severe and inflamed atherosclerotic plaques in the aortic sinus, lesion development was profoundly reduced in IL-33-treated animals. IL-33 also markedly increased levels of IL-4, -5, and -13, but decreased levels of IFNgamma in serum and lymph node cells. IL-33 treatment also elevated levels of total serum IgA, IgE, and IgG(1), but decreased IgG(2a), which is consistent with a Th1-to-Th2 switch. IL-33-treated mice also produced significantly elevated antioxidized low-density lipoprotein (ox-LDL) antibodies. Conversely, mice treated with soluble ST2, a decoy receptor that neutralizes IL-33, developed significantly larger atherosclerotic plaques in the aortic sinus of the ApoE(-/-) mice compared with control IgG-treated mice. Furthermore, coadministration of an anti-IL-5 mAb with IL-33 prevented the reduction in plaque size and reduced the amount of ox-LDL antibodies induced by IL-33. In conclusion, IL-33 may play a protective role in the development of atherosclerosis via the induction of IL-5 and ox-LDL antibodies.
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PMID:IL-33 reduces the development of atherosclerosis. 1826 38


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