Flow cytometric analysis of intestinal intraepithelial lymphocytes in the diagnosis of refractory celiac sprue

The etiology of refractory celiac sprue (RCS) is unclear. In a high proportion of cases, the clonal nature of intestinal intraepithelial lymphocytes (IEL) can be demonstrated and a pathogenetic implication of intestinal IEL has been postulated. The prognosis of this subgroup of RCS is poor, with a high risk to develop an overt lymphoma and uncontrolled malabsorption despite steroid/immunosuppressive therapy. Cases with a relatively indolent clinical course, however, exist and their early diagnosis may be difficult. To gain insight into the pathogenic implication of intestinal IEL in refractory celiac sprue, we have performed an extensive phenotypic and functional characterization of clonal intestinal IEL in a patient with an indolent form of refractory celiac sprue, using multiparametric flow cytometry. The abnormal lymphocyte infiltrate lacked surface membrane expression of CD3/T-cell receptor (TCR) complexes (TCR(-), CD4(-), CD8(-), sCD3(-)), but contained intracellular CD3(epsilon) (CyCD3(+)) and surface CD103(+) and CD7(+). In particular, these cells showed a unique spontaneous ex-vivo cytokine secretion profile with an increased percentage of CD3(-) IEL containing TNF-alpha and IL-10, in the absence of IL-2, IL-4 and IFN-gamma. Altogether our results suggest that flow cytometry immunophenotyping of intestinal IEL, in cases suspected of celiac disease and their complicated forms, could be of great help in the correct diagnosis of RCS and the understanding of the immunopathogenic mechanisms of the disease and their clinical and/or therapeutical implications.     

Epithelium derived interleukin 15 regulates intraepithelial lymphocyte Th1 cytokine production, cytotoxicity, and survival in coeliac disease

BACKGROUND AND AIMS: Epithelium derived interleukin (IL)-15 signalling via IL-15Ralpha is critical for the development, activation, and survival of intraepithelial lymphocytes (IEL). We aimed to better understand the IL-15 driven effects on IEL underlying mucosal damage and lymphomagenesis in coeliac disease (CD). METHODS: Enterocytes, IEL, and lamina propria mononuclear cells (LPMC) were isolated from 46 patients with uncomplicated CD (25 untreated and 21 treated) and 22 controls. IL-15 and IL-15Ralpha expression were determined by immunoblotting. Secretion of IL-15, interferon gamma (IFN-gamma), tumour necrosis factor alpha (TNF-alpha), and granzyme B into cell culture supernatants was assessed by ELISA. The ability of IL-15 to regulate IEL proliferation, perforin/granzyme dependent cytotoxicity, and apoptosis was tested by adding different combinations of IL-15, IL-15 blocking antibody, or chloroquine to IEL cultured alone or with Caco-2 cells as target. IL-15 mucosal levels were also determined by ELISA in five patients with complicated CD (two ulcerative jejunoileites, one refractory sprue, and two enteropathy associated T cell lymphomas) tested for T cell receptor gamma chain clonality. RESULTS: IL-15 was overexpressed in untreated CD enterocytes and LPMC, and in the mucosa of complicated CD patients and uncomplicated untreated CD patients, where its levels correlated with the degree of mucosal damage. Enterocytes from untreated, but not treated, CD patients and controls secreted IL-15. Untreated CD IEL, characterised by higher IL-15Ralpha expression, showed increased proliferation, production of IFN-gamma and TNF-alpha, and perforin/granzyme dependent cytotoxicity, and a decreased propensity to apoptosis in response to IL-15. CONCLUSIONS: Our findings suggest that IL-15 plays a crucial role in the generation of epithelial damage in active CD. Its promotion of IEL survival in CD may predispose to the emergence of T cell clonal proliferations. Blocking IL-15, by suppressing uncontrolled IEL activation and survival, has the potential to provide new therapeutic tools to prevent tissue damage and lymphomagenesis in CD.     

Refractory sprue

Celiac disease is a T cell-mediated disorder that results from intolerance to gluten. The major cause of failure to respond to a gluten-free diet is continuing gluten ingestion. In poorly responsive patients diagnosis of refractory sprue can be established after exclusion of a limited number of conditions. Refractory sprue may occur after an initial response to the diet or without evidence of preexisting celiac disease. The detection of aberrant, clonally expanded, intraepithelial lymphocytes has led to better definition and classification of patients with refractory sprue. Only a few series of patients with well-characterized refractory sprue have been reported in the literature. The prognosis is poor, though some patients respond to corticosteroids and immunosuppressive agents. The presence of an aberrant clonal intraepithelial T-cell population has led to the designation of refractory sprue as a cryptic intestinal T-cell lymphoma.     

Refractory sprue syndrome with clonal intraepithelial lymphocytes evolving into overt enteropathy-type intestinal T-cell lymphoma

INTRODUCTION: Recently, patients with refractory sprue have been shown to contain a clonal proliferation of phenotypically abnormal intraepithelial lymphocytes in their intestine. Whether this signifies early enteropathy-type intestinal T-cell lymphoma (EITCL) or a reactive condition is not clear. We report on a patient presenting with the findings of refractory sprue who subsequently developed overt EITCL. MATERIAL AND METHODS: Duodenal biopsies from 1997 (refractory sprue) and duodenal and jejunal biopsies from 1998 (intestinal T-cell lymphoma) were compared by immunohistochemistry and PCR for the detection of T-cell receptor (TCR)-gamma gene rearrangements. Clonal PCR products were sequenced. RESULTS: The duodenal biopsies from both 1997 and 1998 and the jejunal tumor biopsy showed villus atrophy and an increase of intraepithelial lymphocytes with an abnormal immunophenotype (CD3+, CD4-, CD8- and TCR-beta-). In all duodenal specimens including the one from 1997, and the jenunal tumor biopsy, an identical clonal amplificate was detected by enzymatic amplification of the TCR-gamma gene. CONCLUSION: These data suggest that refractory sprue containing a clonal proliferation of phenotypically abnormal intraepithelial lymphocytes may represent an early manifestation of EITCL. The detection of immunohistochemical negativity for several antigens normally found on intraepithelial lymphocytes such as CD8 or the TCR-beta chain in combination with clonal T-cell populations by PCR may be helpful in identifying refractory sprue with a malignant transformation.     

Mucosal intra-epithelial lymphocytes in enteropathy-associated T-cell lymphoma, ulcerative jejunitis, and refractory celiac disease constitute a neoplastic population.

Loss of response to a gluten-free diet (refractory sprue) and ulcerative jejunitis are complications of celiac disease that may progress to enteropathy-associated T-cell lymphoma (EATL). Both conditions are characterized by the presence of a nonlymphomatous monoclonal T-cell population in the enteropathic mucosa. In EATL, a similar monoclonal population that shows clonal identity with the lymphoma itself is also present in the enteropathic mucosa. In this study we show that in all three circumstances the monoclonal T-cell population is constituted by cytologically normal, noninvasive intraepithelial T lymphocytes that share an identical aberrant immunophenotype with EATL. Patients with refractory sprue and/or ulcerative jejunitis are, therefore, suffering from a neoplastic T-cell disorder for which hematological treatment strategies need to be devised.     

Interleukin 15 mediates epithelial changes in celiac disease

BACKGROUND & AIMS: Villous atrophy and crypt proliferation are key epithelial features of untreated celiac disease. We tried to define whether cytokines such as interleukin (IL)-15, IL-2, IL-4, and IL-7, which share chains of their receptors, could influence the epithelial modifications. METHODS: Duodenal biopsy specimens (14 treated and 13 untreated celiac patients, 7 controls) were cultured in vitro for 24 hours with or without gliadin (1 mg/mL), IL-15, IL-7, IL-4, or IL-2 (10 ng/mL). Tumor necrosis factor (TNF)-alpha and interferon (IFN)-gamma were also used in some specimens of untreated celiacs. Epithelial expression of Ki67, FAS, and transferrin receptor (TFR) was detected by immunohistochemistry, and apoptosis by TUNEL technique (percentage of positive enterocytes). IL-15-positive cells were detected by immunohistochemistry in celiac disease and control biopsy specimens; presence of IL-15 was also determined by semiquantitative polymerase chain reaction. RESULTS: Only IL-15 induced enterocyte expression of Ki67, TFR, and FAS in treated celiac (P<0.01 vs. medium) and enterocyte apoptosis in untreated celiac disease specimens. Anti-IL-15 monoclonal antibodies neutralized gliadin-induced enterocyte TFR and FAS expression in treated celiac and enterocyte apoptosis in untreated celiac disease specimens (P<0.05 vs. gliadin). IL-15-positive cells were increased in untreated celiacs (P<0.001 vs. treated celiacs and controls). CONCLUSIONS: IL-15 is involved in the modulation of epithelial changes in celiac disease, indicating that this cytokine has an unforeseen role in the pathologic manifestations of celiac disease.     

Frequency of clonal intraepithelial T lymphocyte proliferations in enteropathy-type intestinal T cell lymphoma, coeliac disease, and refractory sprue

BACKGROUND: Clonal T cell receptor (TCR) gene rearrangements and loss of T cell antigens such as CD8 and TCR-beta in intraepithelial lymphocytes (IELs) may indicate the development of an enteropathy-type intestinal T cell lymphoma (EITCL) in patients with refractory sprue. AIMS: To define the diagnostic value of these markers in duodenal biopsies from patients with villous atrophy as a result of various underlying disorders. PATIENTS AND METHODS: Duodenal biopsies from eight patients with coeliac disease and five patients with villous atrophy caused by defined disorders were compared with three patients with refractory sprue evolving into overt EITCL, two patients with ulcerative jejunitis, and with eight patients with overt EITCL, for expression of CD3, CD4, CD8, and TCR-beta in IELs using immunohistochemistry and for clonal TCR-gamma gene rearrangements using polymerase chain reaction. In addition, biopsies from six consecutive patients with refractory sprue of uncertain cause were examined. RESULTS: Clonal TCR-gamma gene rearrangements were found in all resected tumours of patients with EITCL, in 3/8 duodenal biopsies of patients with EITCL, in 2/2 patients with ulcerative jejunitis, in 2/3 patients with refractory sprue evolving into overt EITCL, and in 1/6 patients with refractory sprue. No rearrangements were found in biopsies from patients with refractory sprue caused by defined disorders or those with coeliac disease. Clonality in duodenal biopsies was associated with an abnormal phenotype of IELs in all cases and in all but one case in patients with evidence of underlying coeliac disease. Specificity for detection of an EITCL using immunohistology was 77% for CD8 and for TCR-beta staining, and 100% for detection of a clonal TCR-gamma gene rearrangement. Sensitivity was 62% for staining with CD8 and clonality investigation, while sensitivity reached 100% for TCR-beta staining in all investigated patients with EITCL. CONCLUSIONS: Clonal proliferations of phenotypically abnormal IELs in refractory sprue represent an early manifestation of EITCL, for which the term "sprue-like intestinal T cell lymphoma" is proposed. This constellation is also found in duodenal biopsies from patients with an overt EITCL and is not related to other sprue syndromes, resulting in a high specificity for detection of an EITCL or refractory sprue evolving into EITCL. Overt EITCL may develop directly from coeliac disease without a precursor lesion (refractory sprue with clonal IELs) being demonstrable in duodenal biopsies or via a "sprue-like intestinal T cell lymphoma". This latter entity is a complication of coeliac disease.     

The combination of clinical parameters and immunophenotyping of intraepithelial lymphocytes allows to assess disease severity in refractory celiac disease

BackgroundFlow cytometry of intestinal lymphocytes is discussed to be a stronger predictor of enteropathy-associated T-cell lymphoma development in refractory celiac disease than T-cell clonality analysis.AimsTo investigate possible associations between clinical characteristics of refractory celiac disease patients and aberrant intraepithelial lymphocytes and to evaluate the accuracy of immunophenotyping for the identification of high-risk refractory celiac disease.MethodsFlow cytometry of isolated lymphocytes from duodenal biopsies of controls and celiac disease patients was performed and results were compared to clinical data.ResultsFlow cytometry analysis was performed on 42 controls, 37 non-complicated celiac disease and 30 refractory celiac disease cases with or without T-cell receptor clonality. Elevated aberrant intraepithelial lymphocyte counts were significantly associated with severe malabsorption. A 15% cut-off (aberrant lymphocytes among all lymphocytes) had the best discriminatory ability to identify high-risk patients. However, this technique failed to identify some high-risk cases (sensitivity 63%, specificity 100%). The severity of malabsorption was added to the criteria for high-risk refractory celiac disease, improving the correct patients’ allocation (sensitivity 100%, specificity 96%).ConclusionImmunophenotyping of aberrant intraepithelial lymphocytes is a good predictor for high-risk refractory celiac disease. Furthermore, adding the evaluation of malabsorption to the diagnostic assessment of refractory celiac disease optimizes accuracy.     

Giardia induces proliferation and interferon gamma production by intestinal lymphocytes

BACKGROUND: Murine intraepithelial lymphocytes kill Giardia lambia; responses of human intestinal lymphocytes to this parasite are unknown. AIMS: To examine giardia induced proliferation, interferon gamma production, migration, and cytotoxicity by lymphocytes from the human intestine and peripheral blood. METHODS: Giardia were added to intraepithelial lymphocytes, lamina propria lymphocytes, and peripheral blood lymphocytes, obtained from jejunal mucosa and blood of otherwise healthy patients undergoing gastric bypass surgery for morbid obesity. Proliferation was measured by 3H-thymidine incorporation; frequency of proliferation precursors, by limiting dilution analysis; interferon gamma production, by ELISA; cytotoxicity, by 51Cr release of radiolabelled giardia and by release of serine esterases by effector lymphocytes that mediate cytotoxicity. RESULTS: The CD4+ T lymphocytes from intestine and blood proliferated in response to giardia. The stimulus by the parasite was mitogenic rather than antigenic due to the fact that the peak response was on day 3 rather than day 6, and the large number of precursors was in the range of that for mitogens. CD4+ T lymphocytes from both sites produced interferon gamma in response to giardia. Lymphocytes did not migrate towards or kill the parasite. CONCLUSIONS: Giardia induced the same degree of proliferation and interferon gamma production by CD4+ T lymphocytes in intestine and blood, but did not trigger cytotoxicity or migration.     

Refractory celiac disease

The main cause of lack of response to a gluten-free diet is continued, usually inadvertent, gluten intake. Diagnosis of refractory celiac disease is established on the basis of exclusion of other disorders, persistence of malabsorption and villous atrophy. Refractory celiac disease affects a heterogeneous group of patients, usually adults and, fortunately, is infrequent (<5% of the population). Detection of alterations in the intraepithelial lymphocyte population is essential for diagnosis. Some alterations in these lymphocytes, such as the absence of T cell surface receptor expression (CD3 and CD), indicate an aggressive form of the disease with the potential for malignant transformation (type II refractory celiac disease). Treatment is based on adequate nutritional support and on the use of corticosteroids and/or immunosuppressive agents (mainly azathioprine and infliximab). Because of the high risk of progression to intestinal T cell lymphoma, patients diagnosed with type 2 refractory disease require different -generally more aggressive- therapeutic strategies. At present, no treatment has been demonstrated to be effective in the long term, but two options that should be considered in type II disease are immunotherapy with anti-CD52 or similar agents, and autologous bone marrow transplantation. Trials with antibodies that block epithelial secretion of interleukin-15, a key molecule in the pathogenesis of the disease, are promising.     

Spontaneous cytotoxicity of human intraepithelial lymphocytes against epithelial cell tumors.

Human intraepithelial lymphocytes are T cells primarily of the CD8+ phenotype located between intestinal epithelial cells. The cytotoxic and suppressor activities of these lymphocytes are largely unexplored. The spontaneous cytotoxic activity of these cells is evaluated in this study. Jejunal intraepithelial lymphocytes spontaneously lysed a variety of epithelial cell tumor lines (colonic and pancreatic adenocarcinomas and bladder epidermoid carcinoma) but not the highly natural killer-sensitive K-562 cells. Cold target inhibition studies showed that these lymphocytes preferentially bind the DLD-1 colonic adenocarcinoma cells rather than the K-562 cells. Pretreatment of the effector cells with interferon-gamma did not change their cytotoxic activity. The cytotoxic cells are T lymphocytes (expressing CD2, CD3, and CD8). In contrast, the spontaneous cytotoxic activity of peripheral blood lymphocytes is directed against both epithelial cell targets and K-562 cells, is enhanced by interferon-gamma, and is effected by natural killer cells (expressing CD2, CD16, and NKH1). Thus, the spontaneous cytotoxicity of intraepithelial lymphocytes differs from that of peripheral blood lymphocytes in their target cell restriction, lack of response to interferon gamma, and effector cell phenotype. Lymphocytes in the intestinal epithelium may have a novel and important role in recognizing and destroying transformed epithelial cells and colon cancers.     

Effects of dextran sulphate sodium on intestinal epithelial cells and intestinal lymphocytes.

BACKGROUND AND AIMS: The effects of dextran sulphate sodium (DSS) on mouse intestinal epithelial cells and intraepithelial lymphocytes were analysed to investigate the mechanism by which DSS induces colitis and tumours in mice. Cytotoxicity of DSS towards intestinal epithelial cells and intestinal intraepithelial lymphocyte hybridomas or fresh intestinal intraepithelial lymphocytes seems to have concentration, time, and cell type dependency with increasing concentrations and time causing increased cytotoxicity. RESULTS: Integrin alpha 4 expression was marginally down regulated by 0.5% of DSS, while alpha M290 expression was up regulated. DSS inhibits the binding of 9.1 gamma delta cells to both extracellular matrix (ECM) and epithelial cells. Conversely at high concentrations it increases binding to all ECM except poly-L-lysine. Various cytokines including TGF beta, interleukin 2, and tumour necrosis factor alpha as well as prostaglandin alter the expression of the integrin alpha 4 and M290 subunits at the cell surface, and also alter the adhesion of 9.1 gamma delta cells to epithelial monolayers. The expression of a large number of cell adhesion molecules expressed on intraepithelial lymphocytes is affected by a combination of the abundant gut cytokine TGF beta and DSS, suggesting that DSS induced colitis may ultimately arise from a combination of gut cytokine and DSS. DSS also triggers intraepithelial lymphocyte aggregation on all ECM coated plate tested. CONCLUSIONS: These data suggest that the potential roles of DSS induced colitis may be: (a) direct cytotoxicity; (b) interference with the normal interaction between intestinal lymphocytes, epithelial cells, and ECMs; (c) aberrant modulation of the expression of the integrin beta 7 receptors, other cell receptors, and their functions.     

Gluten, major histocompatibility complex, and the small intestine. A molecular and immunobiologic approach to the spectrum of gluten sensitivity ('celiac sprue').

This article examines associations between gluten, polymorphisms of the major histocompatibility complex, and mucosal pathology representative of the spectrum of gluten sensitivity. Sequences of wheat, rye, and barley prolamins contain recurring tetrapeptide motifs that are predicted to have beta-reverse-turn secondary structure and that, with in vitro assays, appear active. Structural polymorphisms of major histocompatibility complex subloci identify codon switches within the second exon that control the third hypervariable region in the outer domain of the beta chain. Observations of the intestinal response to gluten reveal five interrelated lesions (preinfiltrative, infiltrative, hyperplastic, destructive, and hypoplastic) that are interpretable as cell-mediated immunologic responses. These responses originate in the lamina propria, where a series of antigen-specific inflammatory processes has now been identified. There is no evidence that celiac sprue is a disease of jejunal enterocytes. Furthermore, the role of intraepithelial space lymphocytes in pathogenesis, if relevant, needs further experimental dissection. Also awaiting further definition are polymorphisms of the celiac lymphocyte antigen receptor and their relationship to gliadin oligopeptide(s) and predisposing genes. The nature and basis of nonresponsive celiac sprue require more thoughtful initiatives to elucidate the immunologic mechanism(s) of unresponsiveness and evaluate possible means of reversal. Finally, a more sensible definition of gluten sensitivity (unhampered by qualitative morphological imagery) is ultimately called for in order to accommodate the biomolecular advances addressed in this review.     

Budesonide in the treatment of refractory celiac disease

OBJECTIVE: Corticosteroids are used in patients with refractory celiac disease. In order to minimize their systemic side effects, we assessed the role of a locally active sustained release corticosteroid with minimal systemic bioavailability in patients with refractory celiac disease in an open labeled noncontrolled study. METHODS: Patients who received budesonide for refractory celiac disease were classified according to whether they were primarily or secondarily unresponsive to the diet, and whether they had a polyclonal (type I) or clonal (type II) expansion of intraepithelial lymphocytes. The response to budesonide was assessed globally and by reduction in bowel movements. RESULTS: Patients (N = 29, 72% female) received budesonide for a mean of 6.7 +/- 8.5 months, 5 patients (18%) had type II disease (clonal T-cell population); 76% responded to the medication, 55% completely. Response occurred when budesonide was used alone or with oral corticosteroids and/or azathioprine. There was an objective improvement in the number of bowel movements in those that responded. Response occurred in those with either primary or secondary refractory disease and in those with type II disease, irrespective of the presence of microscopic colitis (N = 7). There was no improvement in the duodenal biopsy over the study period and there were no side effects of budesonide. CONCLUSIONS: Budesonide may be of value in the management of refractory celiac disease.     

Effect of gliadin and other food peptides on expression of MHC class II molecules by HT-29 cells.

Expression of major histocompatibility (MHC) class II molecules by enterocytes is known to be enhanced in coeliac disease and other disorders characterised by intestinal inflammation--an effect thought to be mediated via intestinal lymphocytes. To investigate if food peptides can exert direct effects on class II expression, the influence of gliadins, casein, and beta lactoglobulin on an intestinal epithelial cell line (HT-29) was examined in the absence of immune cells. Class II expression was determined by flow cytometry and immunofluorescence microscopy using antibodies against the beta chain of all products of the gene subregions DR, DQ, and DP. MHC expression was low in HT-29 cells but could be stimulated by interferon gamma. Tryptin digested gliadin had no effect on class II expression. In the presence of interferon gamma, however, it was able to amplify MHC class II expression to mean (SEM) 150 (4)%. Casein exerted a similar effect (160 (14)%), but undigested gliadin, tryptin digested casein, and beta lactoglobulin had no influence. The observations suggest that within the concert of cytokine mediated interactions between enterocytes and lymphocytes, some dietary peptides could upregulate the presentation of food antigens, leading to a more efficient stimulation of lymphocytes, which in the case of coeliac disease might result in damage to the enterocytes.     

Lymphocytic gastritis in patients with celiac sprue or spruelike intestinal disease

A distinctive form of gastritis, characterized by lymphocytic infiltration of pit epithelium, has recently been described in association with evidence of Campylobacter pylori infection. We have evaluated simultaneous small bowel and gastric biopsies from 22 patients with diarrhea or malabsorption, all of which showed small bowel changes characteristic of sprue or spruelike disease. In 10 of 22 patients, striking lymphocytic gastritis was identified. Cases positive for lymphocytic gastritis had a mean of 46.5 lymphocytes per 100 epithelial cells, compared with a mean of 3.5 in normal gastric controls and 5.1 in abnormal controls, including cases with Campylobacter gastritis. Concurrent small bowel biopsies had a mean of 47.2 lymphocytes per 100 epithelial cells. Cases without lymphocytic gastritis had means of 10.8 and 39.9 lymphocytes per 100 gastric and intestinal epithelial cells, respectively. Campylobacter organisms were identified in only 1 of the 10 patients with lymphocytic gastritis and in 3 of the 12 patients without lymphocytic gastritis. Intraepithelial lymphocytes in small bowel and stomach were positive for the antibody MT-1, indicating a T-cell infiltrate at both sites. These findings suggest that lymphocytic gastritis may occur as a manifestation of celiac sprue or spruelike disease and that the lymphocytic infiltration of celiac sprue may affect gastric epithelial mucous cells.     

NKG2D recognition mediates Toll-like receptor 3 signaling-induced breakdown of epithelial homeostasis in the small intestines of mice

Toll-like receptors (TLRs) and NK receptors are the two most important receptor families in innate immunity. Although it has been observed that TLR signaling can induce or up-regulate the expression of the ligands for stimulatory NK receptors on monocytes or muscle cells, there is not yet a report indicating whether TLR signaling can break down self-tolerance through NK receptors. The present work reports that TLR3 signaling by polyinosinic-polycytidylic acid stimulation induces intestinal epithelial cells (IECs) to express retinoic acid early inducible-1 (a ligand for NKG2D) and to induce NKG2D expression on CD8alphaalpha intestinal intraepithelial lymphocytes by IL-15 derived from TLR3-activated IECs. The blockade of interaction between NKG2D and Rae1 inhibits the cytotoxicity of intraepithelial lymphocytes against IECs in a cell-cell contact-dependent manner and therefore alleviates polyinosinic-polycytidylic acid-induced epithelial destruction and acute mucosal injury of small intestine. These results demonstrate that TLR signaling induces tissue injury through the NKG2D pathway, suggesting that TLR signaling may break down self-tolerance through induction of abnormal expression of ligands for stimulatory NK receptors.     

Selective expansion of intraepithelial lymphocytes expressing the HLA-E-specific natural killer receptor CD94 in celiac disease

BACKGROUND & AIMS: Celiac disease is a gluten-induced enteropathy characterized by the presence of gliadin-specific CD4(+) T cells in the lamina propria and by a prominent intraepithelial T-cell infiltration of unknown mechanism. The aim of this study was to characterize the subset(s) of intraepithelial lymphocytes (IELs) expanding during active celiac disease to provide insights into the mechanisms involved in their expansion. METHODS: Flow-cytometric analysis of isolated IELs and/or immunohistochemical staining of frozen sections were performed in 51 celiac patients and 50 controls with a panel of monoclonal antibodies against T-cell and natural killer (NK) receptors. In addition, in vitro studies were performed to identify candidate stimuli for NK receptor expression. RESULTS: In normal intestine, different proportions of IELs, which were mainly T cells, expressed the NK receptors CD94/NKG2, NKR-P1A, KIR2D/3D, NKp46, Pen5, or CD56. During the active phase of celiac disease, the frequency of CD94(+) IELs, which were mostly alphabeta T cells, was conspicuously increased over controls. In contrast, the expression of other NK markers was not modified. Furthermore, expression of CD94 could be selectively induced in vitro by T-cell receptor activation and/or interleukin 15, a cytokine produced by intestinal epithelial cells. CONCLUSIONS: The gut epithelium favors the development of T cells that express NK receptors. In active celiac disease, there is a specific and selective increase of IELs expressing CD94, the HLA-E-specific NK receptor that may be related to T-cell receptor activation and/or interleukin 15 secretion.