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Query: UMLS:C0039483 (
giant cell arteritis
)
3,204
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Giant cell vasculitis is an arteritis that predominantly affects medium- and large-sized arteries. Genetic risk factors and clonal expansion of selected CD4+ T cell specificities in the vascular lesions support the model that
giant cell arteritis
is a T-cell-driven disease. Interferon (IFN)-gamma production in the tissue is intimately associated with the formation of the inflammatory infiltrates. Antigens inducing stimulation of T cells are unknown. To provide indirect evidence for the type and the tissue localization of the antigen, we examined CD4+ T cells in the lesions that secrete
IFN-gamma
. Temporal artery specimens from patients with
giant cell arteritis
were analyzed bu two-color immunohistochemistry applying antibodies to T cell markers.
IFN-gamma
, the interleukin-2 receptor alpha-chain (CD25) and talin, a cytoskeletal protein that is reorganized in T cells interacting with antigen-presenting cells. Proliferating cells in the lesions were identified through the expression of the Ki-67 nuclear antigen. More than 90% of tissue-infiltrating
IFN-gamma
-producing cells were CD4+ CD45RO+. They represented a minute subset (2 to 4%) of tissue-infiltrating T cells. IFN-gamma+ T cells aggregated in the adventitial layer of the inflamed artery where they were either diffusely distributed or arranged in clusters. The majority of
IFN-gamma
-secreting T cells expressed CD25. IFN-gamma+ T cells included a fraction of cells that had reorganized the cytoskeletal protein talin, indicating an interaction of the T cell receptor and an antigen-presenting cell. A subset of
IFN-gamma
-expressing T cells was undergoing proliferation in the tissue.
IFN-gamma
-producing T cells in vasculitic lesions of
giant cell arteritis
express several markers that identify them as T cells that have recently been stimulated through their antigen-specific receptor. These putatively disease-relevant T cells represent only a very minor fraction of tissue-infiltrating cells. Their preferential accumulation in the adventitia is most compatible with the model that they contact the relevant antigen primarily in this particular region of the artery. Their regulatory function appears to extend into the inner media and intima where pathological changes in
giant cell arteritis
are most pronounced.
...
PMID:Interferon-gamma-producing T cells in giant cell vasculitis represent a minority of tissue-infiltrating cells and are located distant from the site of pathology. 866 78
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.
...
PMID:The pathogenic role of T lymphocytes in vasculitis. 894 85
Giant cell arteritis
(
GCA
) is a vasculitic syndrome that preferentially affects medium and large-sized arteries. Glucocorticoid therapy resolves clinical symptoms within hours to days, but therapy has to be continued over several years to prevent disease relapses. It is not known whether and how glucocorticoids affect the function of the inflammatory infiltrate or why the disease persists subclinically despite chronic treatment.
GCA
is self-sustained in temporal arteries engrafted into SCID mice, providing a model in which the mechanisms of action and limitations of glucocorticoid therapy can be examined in vivo. Administration of dexamethasone to temporal artery-SCID chimeras for 1 wk induced a partial suppression of T cell and macrophage function as indicated by the reduced tissue concentrations of IL-2, IL-1beta, and IL-6 mRNA, and by the diminished expression of inducible NO synthase. In contrast, synthesis of
IFN-gamma mRNA
was only slightly decreased, and expression of TGF-beta1 was unaffected. These findings correlated with activation of the IkappaBalpha gene and blockade of the nuclear translocation of NFkappaB in the xenotransplanted tissue. Dose-response experiments suggested that steroid doses currently used in clinical medicine are suboptimal in repressing NFkappaB-mediated cytokine production in the inflammatory lesions. Chronic steroid therapy was able to deplete the T cell products IL-2 and
IFN-gamma
, whereas the activation of tissue-infiltrating macrophages was only partially affected. IL-1beta transcription was abrogated; in contrast, TGF-beta1 mRNA synthesis was steroid resistant. The persistence of TGF-beta1-transcribing macrophages, despite paralysis of T cell function, may provide an explanation for the chronicity of the disease, and may identify a novel therapeutic target in this inflammatory vasculopathy.
...
PMID:Glucocorticoid-mediated repression of cytokine gene transcription in human arteritis-SCID chimeras. 918 6
Two inflammatory vascular diseases often show multinucleated macrophages: Takayasu's disease and
Horton's disease
. Takayasu's disease is a segmentary panarteritis most prominent in the adventitia. Lesions show an inflammatory infiltrate close to the external elastic lamina. Progressive stenosis of the artery, sometimes complicated by calcifying atheroma is the typical course.
Horton's disease
or
temporal arteritis
is another segmentary arteritis. Lesions show a mixed inflammatory infiltrate partly localized in the adventitia where there are T CD4+ lymphocytes secreting II-2 and
IFN-gamma
and also macrophages expressing TGF beta 1, IL-6 and IL-1 beta, and partly situated in the interior part of the wall, around the internal elastic lamina, and mostly made of macrophages and giant cells which produce TNF, collagenase and nitric oxide that are responsible for destruction of the wall. The variety and subtleness of some lesions do not always make a precise diagnosis possible. But any inflammatory vascular lesion, even slight, can reveal a systemic vasculitis.
...
PMID:[Pathology of giant cell arteritis]. 992 94
Molecular studies of
giant cell arteritis
indicate that T cells are recruited to the wall of medium-sized and large arteries, are activated locally, produce IL-2 and
IFN-gamma
, and regulate the activity of tissue-infiltrating macrophages. Downstream effects of T cell activation include the production of proinflammatory cytokines, metalloproteinases, and growth factors. Growth factors are instrumental in the process of intimal hyperplasia, leading to luminal occlusion and tissue ischemia. The amounts of IL-2,
IFN-gamma
, and the growth factor PDGF in the vascular lesions varies among patients and are correlated with differences in patterns of clinical manifestations.
Giant cell arteritis
complicated by cranial ischemia, such as anterior optic neuropathy or stroke, is characterized by high levels of
IFN-gamma
and PDGF. If the
IFN-gamma
-PDGF loop is less developed, fever and wasting can dominate the disease. Dominant production of IL-2 is associated with polymyalgia rheumatica. The finding of different inflammatory pathways translating into different clinical phenotypes may reflect differences in the contribution of the arterial wall. Alternative hypotheses include a role of multiple disease-inducing antigens with different tissue distributions or tropisms.
...
PMID:Giant cell arteritis--a molecular approach to the multiple facets of the syndrome. 992 95
The role of autoimmunity in large-vessel vasculitis in humans remains unclear. We have previously shown that infection of gamma interferon receptor knockout (
IFN-gamma
R(-/-)) mice with gammaherpesvirus 68 (gamma HV68) results in severe inflammation of the large elastic arteries that is pathologically similar to the lesions observed in Takayasu's arteritis, the nongranulomatous variant of
temporal arteritis
, and Kawasaki's disease (K. E. Weck et al., Nat. Med. 3:1346-1353, 1997). Here we define the mechanism of damage to the elastic arteries. We show that there is a persistent productive infection of the media of the large elastic vessels. In addition, we demonstrate that persistent virus replication is necessary for chronic arteritis, since antiviral therapy of mice with established disease resulted in increased survival, clearance of viral antigen from the media of the affected vessel, and dramatic amelioration of arteritic lesions. These data argue that ongoing virus replication, rather than autoimmunity, is the cause of gamma HV68-induced elastic arteritis.
...
PMID:Ongoing viral replication is required for gammaherpesvirus 68-induced vascular damage. 1107 30
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.
...
PMID:Pathogenic mechanisms in giant cell arteritis. 1208 61
Cytokines are small proteins that serve as chemical messengers between cells, regulating cell growth and differentiation, tissue repair and remodeling, and many aspects of the immune response. Cytokines are instrumental in determining the nature, magnitude, and duration of inflammatory reactions and, as such, represent ideal targets for interfering with pathogenic processes. In OCA and PMR, cytokines are encountered in two locations, the inflammatory infiltrates accumulating in the arterial wall and in the circulation. IL-6, a cytokine involved in stimulating acute-phase responses, is located upstream of many of the laboratory abnormalities considered helpful in diagnosing and managing
GCA
/PMR, including elevated ESR and CRP. IL-6 has the potential to be helpful in predicting disease severity and may allow for a tailoring of immunosuppressive therapy. There is evidence suggesting that IL-6 outperforms other chemical markers in detecting disease activity and could, therefore, have a role in monitoring treatment. Interesting pathogenic clues have been derived from studies of cytokines produced in the vascular lesions.
IFN-gamma
has emerged as a key regulator in determining the nature and direction of the inflammatory response.
IFN-gamma
appears to be critically involved in modulating the process of intimal hyperplasia, the most destructive consequence of vasculitis, and, as such, emerges as a prime target for novel therapeutic approaches.
...
PMID:Cytokines in giant-cell arteritis. 1208 74
Giant cell arteritis
(
GCA
), a vasculitis that targets medium- and large-size arteries, is ranked as a medical emergency because of its potential to cause blindness and stroke. The typical lesions, granulomas in the vessel wall, are formed by
IFN-gamma
-producing CD4+ T cells and macrophages. CD4+ T cells undergo in situ activation in the adventitia, where they interact with indigenous dendritic cells. Tissue injury is mediated by several distinct sets of macrophages that are committed to diverse effector functions. The dominant tissue injury in the media results from oxidative stress and leads to smooth muscle cell apoptosis and nitration of endothelial cells. Macrophage-derived growth factors are instrumental in driving the response-to-injury program of the artery that causes intimal hyperplasia and vessel occlusion. Clinical manifestations are those of tissue ischemia or a syndrome of exuberant systemic inflammation. The vascular and the systemic components of
GCA
contribute differentially to the disease, leading to distinct clinical phenotypes of this arteritis. Immunologically most interesting is polymyalgia rheumatica, in which the systemic component is combined with aborted vasculitis, suggesting a role for artery-specific tolerance mechanisms.
...
PMID:Immunopathways in giant cell arteritis and polymyalgia rheumatica. 1487 49
