UMLS:C0039483 - FACTA Search

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Query: UMLS:C0039483 (giant cell arteritis)
3,204 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To determine the phenotype of infiltrating mononuclear cells in patients with temporal arteritis (TA), we performed immunohistochemical studies on temporal artery biopsy specimens from 24 patients with biopsy-proven TA. Interdigitating reticulum cells (IRC) were observed in 41% of the patients; disease duration was significantly shorter in these patients than in patients lacking IRC (mean 1.5 months versus 3.8 months). Infiltrating cells consisted predominantly of HLA-DR-expressing macrophages and T lymphocytes, especially of the CD4 subset. There were few B cells and no K cells. No relationship between cellular distribution and disease duration or treatment was found. Interleukin-2 receptor expression was observed in 87.5% of biopsy specimens obtained prior to or within the first 4 days of treatment with prednisone, but in only 14% of specimens obtained later. The presence of IRC in patients with TA suggests an autoimmune reaction directed against an antigenic substance that resides in the arterial wall and is presented and processed in situ. DR-expressing macrophages activated by CD4+ T lymphocytes may contribute to arterial damage in TA. Corticosteroids do not modify cellular distribution but induce important functional changes, as demonstrated by the disappearance of interleukin-2 receptor expression in patients treated for more than 4 days.
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PMID:Immunohistochemical analysis of lymphoid and macrophage cell subsets and their immunologic activation markers in temporal arteritis. Influence of corticosteroid treatment. 278 41

The phenotypic characteristics of peripheral blood lymphocytes were investigated in 22 patients suffering from active polymyalgia rheumatica/giant cell arteritis (PMR/GCA) prior to steroid treatment. We observed a significant reduction in the absolute number and the relative percentage of CD4-, CD8+ and CD3+, CD16+ and/or CD56+ cells compared to controls. Fifteen patients were investigated prospectively over a 6-month period of prednisone therapy. At the end of the study CD4-CD8+ cells had increased significantly compared to baselines, CD3+ CD16+ and/or CD56+ cells remained significantly lower when compared to controls. We did not observe any abnormalities in the absolute number and percentage of HLA-DR+ T lymphocytes, CD5+ B cells and NK cell phenotypes before or during steroid treatment. Our study confirms that there was significant increase in the absolute number of CD8+ T cells during steroid treatment in the PMR/GCA patients, but indicates the persistence of an immunological alteration despite the control of disease manifestations.
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PMID:Lymphocyte subpopulations analysis in peripheral blood in polymyalgia rheumatica/giant cell arteritis. 816 92

Several disease mechanisms have been studied in the model of GCA. GCA patients exhibit a genetic susceptibility which has been mapped to the HLA-DRB1 gene. Polymorphic amino acid residues localized at the floor of the antigen binding site are highly selected in GCA patients suggesting a role for antigen binding and presentation in the disease. This and other genetic risk factors might actually be a surrogate for the distinct geographic distribution of the disease with a marked preference for Northern Europe. Studies on functional aspects of T cells accumulating in the vasculitic foci have demonstrated a strong bias for Th1 helper T cells which locally release IL-2 and IFN-gamma. IFN-gamma appears to be a key cytokine in this vasculitis. IFN-gamma producing T cells represent a minority of the tissue infiltrating cell population suggesting that very few cells have disease relevance and the majority of T cells is recruited as bystanders. IFN-gamma secreting CD4 T cells preferentially localize to the adventitial-medial junction and are thus placed distant from the center of pathology, the intima and internal media. TCRs expressed by T cells accumulated in the affected tissue are not randomly distributed but are biased toward selected specificities. These selected T cells undergo proliferation in the tissue and can be isolated from nonadjacent and independent sites of the vasculitis. This distribution pattern indicates a common driving factor, suspected to be a tissue residing antigen [8]. Further support for an antigen driving this pathological T cell response comes from the finding that temporal artery specimens engrafted into SCID mice continue to show the typical disease process indicating that all components relevant for the disease are contained in the temporal artery wall. So far no shared TCR utilized by different patients has been identified, raising the question whether distinct antigens can elicit GCA as a common pathway of reactivity. Besides its role in investigating pathomechanisms the SCID mouse model of GCA provides the unique opportunity to study the therapeutic effects of established and novel treatments. It can be expected that some of the pathogenic rules established for GCA can be applied to other vasculitic syndromes.
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PMID:The pathogenic role of T lymphocytes in vasculitis. 894 85

T lymphocytes, encountering stimulatory signals in the adventitia of medium-size arteries, emerge as the key players in inflammation-associated injury pathways. In GCA, all injury mechanisms have been related to effector macrophages. Regulated by IFN-gamma-producing T cells, macrophages commit to distinct avenues of differentiation and acquire a spectrum of potentially harmful capabilities (Figure 1). Macrophages in the adventitia focus on production of pro-inflammatory cytokines. Macrophages in the media specialize in oxidative damage with lipid peroxidation attacking smooth muscle cells and matrix components. These macrophages also supply reactive oxygen intermediates that, in combination with nitrogen intermediates, cause protein nitration of endothelial cells. Production of oxygen radicals is complemented by the production of metalloproteinases, likely essential in the breakdown of elastic membranes. With the fragmentation of the internal elastic lamina, the intimal layer becomes accessible to migratory myofibroblasts that, driven by PDGF, form a hyperplastic intimal layer and cause occlusion of the vessel lumen. Expansion of the hyperplastic intima is accompanied by intense neoangiogenesis, supported by angiogenesis factors that again derive from specialized macrophages. Similarities in injury pathways between GCA and another arterial disease, atherosclerosis, are beginning to be recognized. Specifically, activated T cells and macrophages are increasingly appreciated as key players in the process of instability and rupture of atherosclerotic plaque. A specialized subset of CD4 T cells, CD4+ CD28- T cells, are suspected to participate in tissue injury in the plaque. These T cells are equipped with cytolytic capabilities and release large amounts of IFN-gamma. Comparative studies between patients with GCA and those with acute coronary syndromes should enhance our ability to define the principles of arterial wall inflammation, the specifics of injury in that microenvironment, and help in the identification of the eliciting signals.
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PMID:Pathogenic mechanisms in giant cell arteritis. 1208 61

Giant cell arteritis (GCA) is a granulomatous and occlusive vasculitis that causes blindness, stroke, and aortic aneurysm. CD4(+) T cells are selectively activated in the adventitia of affected arteries. In human GCA artery-severe combined immunodeficiency (SCID) mouse chimeras, depletion of CD83(+) dendritic cells (DCs) abrogated vasculitis, suggesting that DCs are critical antigen-presenting cells in GCA. Healthy medium-size arteries possessed an indigenous population of DCs at the adventitia-media border. Adoptive T cell transfer into temporal artery-SCID mouse chimeras demonstrated that DCs in healthy arteries were functionally immature, but gained T cell stimulatory capacity after injection of lipopolysaccharide. In patients with polymyalgia rheumatica (PMR), a subclinical variant of GCA, adventitial DCs were mature and produced the chemokines CCL19 and CCL21, but vasculitic infiltrates were lacking. Human histocompatibility leukocyte antigen class II-matched healthy arteries, PMR arteries, and GCA arteries were coimplanted into SCID mice. Immature DCs in healthy arteries failed to stimulate T cells, but DCs in PMR arteries could attract, retain, and activate T cells that originated from the GCA lesions. We propose that in situ maturation of DCs in the adventitia is an early event in the pathogenesis of GCA. Activation of adventitial DCs initiates and maintains T cell responses in the artery and breaks tissue tolerance in the perivascular space.
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PMID:Activation of arterial wall dendritic cells and breakdown of self-tolerance in giant cell arteritis. 1473 23

Giant cell arteritis, a primary vasculitis of medium-sized and large arteries, causes vessel occlusion through fast and concentric intimal hyperplasia. Contextual parameters, especially the topography of the arterial wall, have emerged as critical pathogenic elements. Experimental data support the concept that the disease is initiated in the most outer layer of the arterial wall, the adventitia. CD4 T cells are recruited to the adventitia, undergo local activation and subsequently orchestrate macrophage differentiation. T cells and macrophages infiltrate into all wall layers and acquire different effector functions dependent on cues in their immediate microenvironment. The end result is myofibroblastic proliferation, luminal stenosis, and tissue ischemia. Adaptive immune responses in the adventitia are triggered by a population of indigenous dendritic cells (DC) placed at the adventitia-media junction. These arterial DCs have a unique surface receptor profile, including a series of Toll-like receptors (TLR). Responsiveness of such arterial DCs to blood-borne stimuli has been studied in human arteries engrafted into immunodeficient mice. Ligands of TLR4 are able to start maturation of adventitial DCs which fail to leave the peripheral tissue site. Instead, these adventitial DCs produce chemokines, recruit T cells, and support their local activation. These data identify tissue-residing DCs as gatekeepers in vasculitis and support the model that TLR ligands function as instigators of vessel wall inflammation.
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PMID:Toll-like receptors in giant cell arteritis. 1587 19

Giant cell arteritis (GCA) is a granulomatous vasculitis that selectively targets medium-sized and large arteries, especially the cranial branches of the aorta. The inflammatory activity of vascular lesions is driven by adaptive immune responses, with CD4 T cells undergoing clonal expansion in the vessel wall and releasing interferon gamma. Recent studies have described a distinctive population of dendritic cells (DCs) localized at the adventitia-media border of normal medium-sized arteries that appear to play a critical role in the initiation of vasculitis. Immune effector functions of this DC population are being examined in human artery-severe combined immunodeficient (SCID) mouse chimeras. In their constitutive form, CD11c+ fascin+ adventitial DCs are not recognized by alloreactive T cells. Triggering with Toll-like receptor (TLR) ligands is sufficient to break this state of tolerance and initiate DC activation, T-cell recruitment, T-cell activation, and T-cell retention in the arterial wall. Systemic administration of ligands for TLR2 or -4 in human artery-SCID chimeras drives differentiation of adventitial DCs into chemokine-producing effector cells with high-level expression of both CD83 and CD86 and mediates T-cell regulatory function through release of interleukin 18. In established vasculitis, fully matured DCs retain antigen-presenting function; antibody-mediated DC depletion disrupts T-cell and macrophage activation and has marked anti-inflammatory effects. We conclude that adventitial DCs, an indigenous cell population of the arterial wall, are responsive to pathogen-derived macromolecules and have gatekeeper function in regulating T-cell recruitment and retention to the arterial adventitia. A switch of adventitial DCs from being nonstimulatory to T-cell activating emerges as a critical event in the initiation of vasculitis.
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PMID:Vascular dendritic cells in giant cell arteritis. 1646 2

The diagnosis of giant cell arteritis is established by temporal artery biopsy. The findings are those of a panarteritis with mononuclear infiltrates penetrating all layers of the arterial wall. Typically, activated T cells and macrophages are arranged in granulomas. Multinucleated giant cells, when present, are usually close to the fragmented internal elastic lamina. Often, the intimal layer is hyperplastic, leading to concentric occlusion of the lumen. The CD4(+) T cells are the main players in the disease process. T-cell activation in the arterial wall requires the presence of specialized antigen-presenting cells, the dendritic cells. The activation of monocytes and macrophages is responsible for the systemic inflammatory syndrome in giant cell arteritis and polymyalgia rheumatica. The blood vessel wall determines the site specificity of giant cell arteritis and provides the ground for the cell to cell interaction.
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PMID:[Giant cell arteritis (temporal arteritis). Pathophysiology, immunology]. 1654 Dec 71

We present the case of a 74-y-old HIV-negative female who suffered simultaneously from multiple opportunistic infections and a Klebsiella pneumoniae sepsis during high-dose steroids for giant cell arteritis. The patient was treated with a purine analog due to hairy cell leukaemia 10 y previously. Purine analog therapy can lead to long lasting defects in cell-mediated immunity. In these patients, treatment with steroids should be closely monitored with CD4 counts.
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PMID:Multiple opportunistic infections after high-dose steroid therapy for giant cell arteritis in a patient previously treated with a purine analog. 1700 40

The aim of the study was to investigate T cell receptor (TCR) usage at the time of diagnosis of giant cell arteritis (GCA) and to estimate the degree of clonality of T-cells infiltrating the lesion. Seven patients with biopsy-proven giant cell arteritis were included in the study. Immunocytochemistry in biopsies from the temporal arteries and flow cytometric analysis of peripheral blood lymphocytes (PBL) was performed using monoclonal antibodies specific for CD3, CD4 and CD8 and 13 TCR Valpha and Vbeta gene segment products. The CDR3 fragment length polymorphism was assessed by gel electrophoresis of PCR-amplified TCR segments. The T lymphocytes were found to be concentrated to the adventitia rather than the media or intima. Six of the seven patients with GCA had expansions of T lymphocytes, expressing selected TCR V genes in the arterial wall. None of these expansions was found in PBL. The infiltrating T-cells were poly- or oligoclonal. In conclusion, the dominating part of the inflammatory infiltrate in GCA emanates from the adventitial microvessels. There is an uneven expression of TCR V genes by T lymphocytes in the inflammatory infiltrates as compared to peripheral blood T lymphocytes at the time of diagnosis, consistent with an antigen-driven immunological reaction in the arterial wall.
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PMID:An uneven expression of T cell receptor V genes in the arterial wall and peripheral blood in giant cell arteritis. 1897 64

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