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Query: UNIPROT:P14784 (
IL-2 receptor
)
3,849
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The majority of patients with Dermatitis Herpetiformis (DH) have a gluten-sensitive
enteropathy
which may be triggered by a T cell-mediated immune response to gluten. Using a proliferative assay, the responses to gluten fraction III, recall antigens and mitogens of peripheral blood mononuclear cells (PBMC) and gut T cell lines (TCL) isolated from patients with Dermatitis Herpetiformis (DH) and normal controls were studied. In most cases, neither PBMC nor gut T cell lines (which were predominantly CD3+, CD4+, TCR alpha beta +) from either controls or patients proliferated in response to gluten fraction III alone. However, the addition of 10 U/ml IL-2 to PBMC cultures containing gluten fraction III resulted in a marked increase in proliferation in 9/19 DH patients and 7/11 controls compared to IL-2 alone. Furthermore, gluten-induced upregulation of
IL-2 receptor
(CD25) expression was demonstrated on PBMC from 4/4 patients with DH and 2/3 controls after 7 days' culture with antigen. A similar effect by exogenous IL-2, or the same concentration of IL-4, was observed in 8/11 (P = 0.02) and 5/6 respectively DH, and 3/4 normal gut T cell lines. No difference was observed in the response of DH and control PBMC to Tetanus toxin, Candida albicans and PPD; both normal and DH gut T cell lines were unresponsive to these antigens. However, the addition of IL-2 increased the response to Candida albicans by DH gut T cell lines. Moreover, the response of DH gut T cell lines to PHA (P < 0.001), Concanavalin A and anti-CD3 were markedly reduced compared to PBMC from the same patients. These findings suggest that gluten-specific T cells present in the blood and gut of normal and DH individuals are activated by but do not proliferate in response to specific antigen.
...
PMID:Lack of proliferative response by gluten-specific T cells in the blood and gut of patients with dermatitis herpetiformis. 749 50
The molecular defects recently identified in the rare monogenic autoimmune diseases (AIDs) have pinpointed critical steps in the pathways that contribute to the development of normal immune responses and self-tolerance. Recent studies of autoimmune polyendocrinopathy syndrome type 1, autoimmune lymphoproliferative syndrome, immunodysregulation, polyendocrinopathy and
enteropathy
, X-linked,
IL-2 receptor
alpha-chain deficiency, and, in particular, their corresponding mouse models, have revealed the details of the molecular mechanisms of normal immune tolerance, and exposed how defects in these mechanisms result in human autoimmunity. In addition to a deeper understanding of the immune system, detailed molecular characterization of monogenic AIDs will help us to understand the mechanisms behind common polygenic AIDs and, furthermore, to develop novel therapies and intervention strategies to treat them.
...
PMID:Monogenic autoimmune diseases - lessons of self-tolerance. 1622 39
Regulatory T-cells are a subset of T cells that have beene extensively studied in modern immunology. They are important for the maintenance of peripheral tolerance, and have an important role in various clinical conditions such as allergy, autoimmune disorders, tumors, infections, and in transplant medicine. Basically, this population has a suppressive effect on the neighboring immune cells, thus contributing to the local modulation and control of immune response. There are two main populations of regulatory T cells - natural regulatory T cells, which form a distinct cellular lineage, develop in thymus and perform their modulatory action through direct intercellular contact, along with the secreted cytokines; and inducible regulatory T cells, which develop in the periphery after contact with the antigen that is presented on the antigen presenting cell, and their primary mode of action is through the interleukin 10 (IL-10) and transforming growth factor beta (TGF-alpha) cytokines. Natural regulatory T cells are activated through T cell receptor after contact with specific antigen and inhibit proliferation of other T cells in an antigen independent manner. One of the major difficulties in the research of regulatory T cells is the lack of specific molecular markers that would identify these cells. Natural regulatory T cells constitutively express surface molecule CD25, but many other surface and intracellular molecules (HLA-DR,
CD122
, CD45RO, CD62, CTLA-4, GITR, PD-1, Notch, FOXP3, etc.) are being investigated for further phenotypic characterization of these cells. Because regulatory T cells have an important role in establishing peripheral tolerance, their importance is manifested in a number of clinical conditions. In the IPEX syndrome (immunodysregulation, polyendocrinopathy and
enteropathy
, X-linked), which is caused by mutation in Foxp3 gene that influences the development and function of regulatory T cells, patients develop severe autoimmune reactions that involve autoimmune endocrine disorders (type 1 diabetes, thyroiditis), respiratory and nutritive allergy, eczema and severe infections. In different types of allergy (pollen allergy, dust mite, nutritive allergens, contact hypersensitivity, etc.) and autoimmune diseases (such as rheumatoid arthritis, multiple sclerosis and type 1 diabetes) a lower number or decreased functional capability of regulatory T cells have been described. In inflammatory conditions and infections, this cell population has an important task in restricting immune response and protecting the host from excessive damage. This ability of regulatory T cells can be used by some pathogens (Epstein Barr virus, Mycobacterium tuberculosis, Leishmania major, etc.) and tumor cells to avoid host response and therefore contribute to the development of some pathological conditions. The knowledge gained on the phenotype and function of regulatory T cells could be useful in many medical conditions. In allergy, autoimmune diseases and in transplant procedures in medicine it would be desirable to increase their function, thus to partially suppress the immune system activity. On the other hand, in some infections and tumors, it would be preferable to decrease the activity of regulatory T cells and boost the function of effector T cells. Regulatory T cells comprise a very active field of immunology, therefore monitoring and modulating of their activity is of great potential significance in a broad spectrum of clinical conditions. By developing and standardizing methods for their monitoring, it would be possible to follow additional parameters of certain clinical conditions and possibly utilize them in therapy.
...
PMID:[Regulatory T cells]. 1721 1
