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:C0007570 (celiac disease)
13,091 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Increased numbers of TcR gamma delta + T cells are present in the small intestinal epithelium of patients with coeliac disease (CoD). Their function, however, is unknown. In order to facilitate detailed functional studies, intestinal gamma delta T cells have been isolated from small intestinal biopsies of patients with CoD (n = 18) and controls (n = 14). As expected, increased numbers of V delta 1+ TcR gamma delta + T cells were detected in freshly isolated intraepithelial cell suspensions (IEL) from CoD patients. Also, in the in vitro expanded IEL T-cell populations from CoD patients the numbers of V delta 1+ TcR gamma delta + T cells were increased compared with similar cell cultures from control patients. From IEL cultures derived from six CoD patients, 107 T-cell clones were generated by limiting dilution and analysed. Sixty of these clones were either CD4 or CD8 positive TcR alpha beta + clones. The remaining 47 clones expressed the TcR gamma delta. Further phenotypical analysis of the gamma delta T-cell clones indicated that the TcR gamma delta + T-cell population in the small intestinal epithelium of CoD patients is heterogeneous: four TcR gamma delta phenotypes could be detected and, although the majority of the TcR gamma delta + T cells were CD4 CD8, gamma delta T-cell clones expressing either a CD8 alpha alpha homodimer, a CD8 alpha beta heterodimer or CD4 were also identified. In contrast to the TCR alpha beta + IEL, most TcR gamma delta + IEL were CD5 negative. Furthermore, biochemical analysis indicated that the increase in V delta 1+ gamma delta T cells in the small intestinal epithelium of CoD patients was not the result of a monoclonal expansion. The small intestinal epithelium-derived gamma delta T-cell clones were functional in vitro since the majority of these clones were able to lyse target cell lines such as K562. Molt4 and Daudi. These novel findings therefore indicate that the gamma delta T cells in the small intestine of CoD patients represent a heterogeneous population and that such cells are functional in vitro. The isolation and the in vitro propagation and cloning of these cells may open new avenues for the study of the putative immune mechanisms leading to coeliac disease.
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PMID:Phenotypical and functional characterization of small intestinal TcR gamma delta + T cells in coeliac disease. 153 68

Using a newly established HTLV-1 positive T cell line as an immunogen, a new monoclonal antibody, Ber-ACT8, was produced. It reacts with in vitro activated T cells and a small subset of normal resting T cells, but not with resting B cells or any of the 29 established human permanent cell lines tested. Immunohistological analysis of a wide spectrum of human tissues showed that Ber-ACT8 reactivity is restricted to a few T cells in the peripheral blood, the extrafollicular areas of lymph nodes and tonsils, and splenic red pulp. In the gut Ber-ACT8 labelled most intraepithelial T cells and up to 50% of lamina propria T cells. The antibody also immunostained T cells present in the oral and bronchial mucosa. Double labelling on splenic cells, fresh blood lymphocytes, and in vitro activated T cells showed that most Ber-ACT8 positive cells coexpressed CD8. Ber-ACT8 did not react with any of the 14 Hodgkin's lymphomas nor any of the 172 non-Hodgkin's lymphomas tested, with the exception of 10 cases of T cell lymphomas, five of which were located in the jejunum and associated with coeliac disease, and one B cell lymphoma, and most cases of hairy cell leukaemia tested. Parallel immunostainings with Ber-ACT8, anti-TCR-beta (beta F1), and anti-TCR-delta showed that most Ber-ACT8 positive T cells carry the TCR of alpha beta type. Comparison of Ber-ACT8 with HML-1, B-ly7, and LF61 showed essentially the same reactivity and an identical molecular target. The molecular structure recognised seems to be a trimeric molecule with components of 150, 125 and 105 kilodaltons, with the Ber-ACT8 epitope localised on the 150 kilodalton chain. The 150 kilodalton molecule contains an 0-linked carbohydrate moiety of about 10 kilodaltons. Because of its very selective distribution, the trimeric antigen is a powerful reagent for the diagnosis of gut T cell-derived T cell lymphomas and other extranodal T cell lymphomas, as well as hairy cell leukaemia.
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PMID:Ber-ACT8: new monoclonal antibody to the mucosa lymphocyte antigen. 189 Jan 96

Monoclonal antibodies to T-cell receptors were used to investigate the prevalence of the two distinct T-cell subpopulations (TCR alpha beta+ and TCR gamma delta+ cells) in the intestinal mucosa of children with celiac disease (gluten-sensitive enteropathy) as compared with normal intestinal mucosa. TCR gamma delta+ cells were rarely identified in the epithelium of human fetal or normal postnatal intestine and few were present in the lamina propria, whereas the number of distribution of TCR alpha beta+ cells closely resembled that of CD3+ cells. Compared with normal intestine, a significant increase in the number of CD3+, CD8+, TCR alpha beta+, and TCR gamma delta+ intraepithelial lymphocytes was present in celiac disease. Although the mucosal TCR gamma delta+ cells were less numerous than TCR alpha beta+ cells in celiac disease, there was a marked increase in the number of TCR gamma delta+ cells as compared with controls. The ligand recognized by the gamma delta T-cell receptor and the function of these cells have not been determined; however, these findings suggest a possible role for TCR gamma delta+ lymphocytes in mucosal immune responses and tissue injury as seen in celiac disease.
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PMID:Lymphocytes bearing the gamma delta T-cell receptor in normal human intestine and celiac disease. 190 24

Work continues to progress in the unravelling of the molecular interactions involved in the pathogenesis of coeliac disease. The immunogenetics of the disease implicate certain HLA DQ alleles as necessary for subsequent disease development. These HLA molecules have been shown to be necessary in the binding and presentation of gliadin peptides to antigen-specific T cells. Current work is examining the precise HLA-antigen interaction that may lead to the development of antigen-blocking agents. The isolation of antigen-specific T cells has led to the confirmation of a toxic T-cell epitope of the gliadin protein (residues 31-49) and it would appear likely that additional toxic epitopes may be similarly characterized in the near future. No common TCR motifs have so far been detected, although these may become apparent as this work progresses. The gliadin peptide sequence, residues 31-49, has now been demonstrated to be toxic in vivo. Additional toxic T-cell epitopes may also be present within gliadins, but this identification of a toxic gliadin sequence for the first time raises the possibility of future manipulation of the wheat genome (and other toxic cereals) that could lead to the development of new graminae cereals with the properties of wheat, but which do not induce toxicity in patients with coeliac disease.
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PMID:The gluten-host interaction. 754 25

Increased numbers of gamma delta T-cell-receptor-bearing (TCR gamma delta +) lymphocytes are present in the small intestinal epithelium of patients with coeliac disease (CoD). In this study the phenotypic characteristics of peripheral blood T cells from 14 untreated CoD patients and 14 healthy age- and sex-matched controls were determined with special emphasis on TCR gamma delta + lymphocytes. We also studied samples taken from 15 CoD patients who were on gluten-free diet (GFD). Two- and three-colour flow cytometry analyses were performed using a whole-blood lysing method. There was no significant difference between the percentages of TCR gamma delta + lymphocytes in patients and controls. However, the amount of delta TCS1+ lymphocytes was significantly lowered in untreated patients (0.48 +/- 0.42% in CoD versus 0.86 +/- 0.57% in controls, P < 0.05). The percentage of CD45RO+ T cells, which are a primed population of T cells including memory cells, was significantly raised in the peripheral blood of untreated patients. This phenomenon was most prominent within the TCR gamma delta + population (83.9 +/- 12.2% in CoD versus 65.5 +/- 14.7% in controls, P < 0.01), but the same applies to CD45RO+ TCR alpha beta + and delta TCS1+ T cells. In patients on GFD these changes seem to be at least partly corrected. Antigen-primed CD45RO+ T cells have been shown to accumulate in the jejunal epithelium of patients with untreated CoD. The enhanced 'memory activity' also found in the peripheral blood of untreated CoD patients may result from a continuous antigenic stimulus and this stimulus could be gluten triggered.
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PMID:Phenotypical characterization of peripheral blood T cells in patients with coeliac disease: elevation of antigen-primed CD45RO+ T lymphocytes. 759 Aug 68

We have analyzed the V-gene usage in gamma delta T cells of the human gut and joint by using a new mAb (B18) specific for V gamma 8 of human TCR-gamma delta+ T cells. The B18+ population constituted a minor subset of the gamma delta T cells in peripheral blood (PB) of healthy persons (6 +/- 5%) and only 1 of 35 gamma delta T cell clones analyzed was positive. In contrast, the B18+ subset was a dominant gamma delta T cell population among intraepithelial lymphocytes (IEL) derived from the human intestine (74 +/- 29, p < 0.002), and two of three IEL clones from patients with coeliac disease were B18+. Interestingly, a higher proportion of B18+ gamma delta T cells was found in the synovial fluid of patients with rheumatoid arthritis (RA) (21 +/- 18%, 0.02 < p < 0.05) compared with normal PB. Furthermore, the B18+ subset was more frequent among IL-2-expanded gamma delta T cells (42 +/- 20%) derived from synovial tissue than among IL-2-expanded cells derived from synovial fluid (p < 0.002) and PB from RA patients (p < 0.02) as well as normal PB (p < 0.002). The V-gene usage of 13 gamma delta T cell clones from the synovial fluid of arthritic patients was analyzed. All B18+ clones (n = 7) expressed mRNA for V gamma 8 together with mRNA for V delta 1 (n = 5) or mRNA for V delta 3 (n = 2). None of the B18- clones expressed V gamma 8 (n = 6). We conclude that the gamma delta T cell that expresses V gamma 8, together with mainly V delta 1, is a major gamma delta T cell subset among the IEL of the gut and a highly frequent subset in the synovial tissue of patients with RA. This subset may correspond to the mouse V gamma 7+ IEL, which has a high degree of amino acid sequence homology with the human V gamma 8 protein.
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PMID:High expression of V gamma 8 is a shared feature of human gamma delta T cells in the epithelium of the gut and in the inflamed synovial tissue. 820 27

The HLA DQA1 locus is polymorphic. Haplotypes containing HLA DQA1*0501, but not HLA DQA1*0201, together with HLA DQB1*0201 are associated with Grave's disease and celiac sprue. In this report, we demonstrate a functional correlate of DQA1 polymorphism. T cells infiltrating a herpes simplex virus (HSV) lesion from a HLA DQ 2,7 individual yielded a virus-specific CD4+ clone restricted by DQ2. Presentation of viral peptide and protein segregated with DQA1 allele, because cell lines bearing DQA1*0501/DQB1*0201 heterodimers presented antigen in proliferation and cytotoxicity assays much more efficiently than cell lines bearing DQA1*0201/DQB1*0201. Binding of viral peptide to cell lines bearing DQA1*0201, in comparison to DQA1*0501, was only moderately reduced and may not explain this effect. Truncation and substitution analyses of peptide binding and T-cell activation were performed to determine which viral peptide residues contacting TCR might therefore be presented in an altered conformation by DQA1*0201/DQB1*0201. Residues 432, 435, 437, 438, and 440 (position P1, P4, P6, P7, and P9) contributed to DQ2 binding, whereas residues 431, 433, 434, and 436 (positions P 1, P2, P3, and P5) contributed to TCR contact. Differential presentation of peptide by HLA DQ2 heterodimers varying at the DQA1 locus may have relevance to host defense and the pathogenesis of HLA DQ2-associated autoimmune diseases.
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PMID:Preferential presentation of herpes simplex virus T-cell antigen by HLA DQA1*0501/DQB1*0201 in comparison to HLA DQA1*0201/DQB1*0201. 912 79

An abnormal mucosal cell-mediated immune response plays a fundamental role in the pathogenesis of celiac disease. To characterize locally infiltrating T cells, gliadin-specific T-cell clones were isolated from two treated celiac patients. Mucosal biopsies were cultured in vitro for 24 hr with a peptic-tryptic digest (PT) of gliadin. T-cell clones (TCC) were then isolated by limiting dilution. The production of interferon-gamma (IFN-gamma) and interleukin-4 (IL-4) was evaluated by ELISA in culture supernatants obtained after a short incubation with anti-CD3 and PMA, or with antigen. Twenty-two TCC were specific for gliadin and/or PT. All were CD3+, CD4+, CD8-, TCR alphabeta+. In one such clone the PT-specific response was inhibited by an anti-DQ, but not by an anti-DR antibody. Of the five gliadin-specific TCC examined, four produced IL-4 and high levels of IFN-gamma; the remaining one initially produced only IL-4, but subsequently also IFN-gamma. All clones obtained from the celiac mucosa, including the gliadin-specific ones, produced high levels of IFN-gamma, in most cases with IL-4. This cytokine profile could explain most of the immunological features of the celiac mucosa.
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PMID:Majority of gliadin-specific T-cell clones from celiac small intestinal mucosa produce interferon-gamma and interleukin-4. 950 18

Celiac disease (CD) is characterized by autodestruction of enterocytes after exposure of genetically susceptible individuals to dietary gluten. To define the transport pathways of proteins involved in the celiac immune response, we wished to determine the subcellular compartments of the intestinal mucosa where wheat gliadin peptides colocalize with receptors of T lymphocytes, including alpha/beta-TCR, gamma/delta-TCR, and CD8. Semithin and ultrathin frozen section of jejunal biopsies from CD patients and controls were used to perform immunofluorescence and immunogold labeling as well as in situ hybridization experiments. In patients with active CD, we detected gliadin peptides in vacuoles and Golgi complexes of enterocytes. CD8, alpha/beta-TCR, and gamma/delta-TCR were found in vacuoles and Golgi complexes within these gliadin-containing enterocytes in addition to the surface of intraepithelial and mucosal T lymphocytes. In contrast, we observed that the localization of CD4, CD3, T cell-restricted intracellular antigen (TIA), and leukocyte common antigen (LCA) was restricted to lymphocytes in CD patients. We further detected labeling signals for gliadin peptides, CD8, alpha/beta-TCR, and gamma/delta-TCR at the basal membrane of enterocytes that were interdigitated by extensions of lymphocytes. In situ hybridization experiments revealed that CD8 and gamma/delta-TCR were not expressed by CD enterocytes. We conclude that CD8, alpha/beta-TCR, and gamma/delta-TCR are targeted to Golgi complexes and vacuoles of small intestinal enterocytes in active CD. The observed process may be involved in the pathogenesis of CD enterocytes. We propose a mechanism for the uptake of CD8, alpha/beta-TCR, and gamma/delta-TCR by the basolateral membrane of small intestinal enterocytes.
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PMID:Targeting of gliadin peptides, CD8, alpha/beta-TCR, and gamma/delta-TCR to Golgi complexes and vacuoles within celiac disease enterocytes. 976 78

The treatment of coeliac disease (CD) is straightforward and simple: life-long adherence to a gluten-free diet. However, in a small subgroup of patients, the clinical and histological abnormalities persist or recur. This non-responsiveness leaves a poorly understood syndrome known as refractory coeliac disease (RCD). A specific definition of RCD is lacking in the literature. We speculate that RCD may appear in a subgroup of coeliacs with persisting histologic abnormalities. In all patients screened for RCD we look for DQ2 and DQ8. In non-DQ2/DQ8 patients we reconsider the diagnosis of CD and of auto-immune enteropathy. Most of the patients referred to us because of suspicion of RCD are affected by other diseases. Probably the commonest cause of non-responsiveness is continued gluten intake. Exocrine pancreas insufficiency, hyperthyroid disease, collagenous colitis are other common explanations. RCD and enteropathy-associated T cell lymphomas (EATL) can be distinguished by intra-epithelial lymphocyte phenotyping and TCR-gamma gene rearrangements. In RCD, an unexplained sustained stimulation of T cell cytotoxic activity is present. Immunosuppressive treatment might moderate this. Cyclosporine has been reported as a resounding success in case reports; however, our results were disappointing. We suggest azathioprine and steroids in RCD without aberrant T-lymphocytes in their mucosa. However, in RCD with aberrant T-lymphocytes we suggest chemotherapy. As the prognosis of EATLs is extremely poor the early detection of RCD with aberrant T cells is crucial.
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PMID:Refractory coeliac disease: a window between coeliac disease and enteropathy associated T cell lymphoma. 1123 88


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