Glutamic acid decarboxylase T lymphocyte responses associated with susceptibility or resistance to type I diabetes: analysis in disease discordant human twins, non-obese diabetic mice and HLA-DQ transgenic mice

Glutamic acid decarboxylase (GAD65) has been implicated as a targeted self antigen in the immune destruction of pancreatic beta cells. T cell responses to GAD65 peptides have been detected in both patients with type I diabetes and in the non-obese diabetic (NOD) mouse. To establish which GAD65 epitopes are important in the immunopathogenesis of disease we initially compared T cell responses to GAD65 epitopes in conditions of disease susceptibility and protection. T cell responses to GAD65 peptides were measured in monozygotic twin pairs selected on the basis of disease discordance and T cell recognition of immunogenic regions of GAD65. Peptides of interest were then used to immunize susceptible NOD mice and H2-E transgenic NOD mice which are protected from diabetes. A differential response to the epitope GAD65 521-535 discriminated diabetic from non-diabetic human twins as well as susceptible from protected mice. This epitope as well as GAD 505-519 induces T cell responses despite binding the type I diabetes associated HLA- DQA1*0301/DQB1*0302 product with low affinity. Since DQ-restricted T cell responses are difficult to study in humans, HLA-DQ8 transgenic mice were then used: GAD epitopes 521-535 and 505-519 induced responses in DQ8 transgenic mice and T cell lines were established. Long-term T cell lines against GAD 505-519 were HLA-DQ restricted, and responded to peptide with a strong IFN-gamma and IL-10 response. The findings implicate GAD 521-535 as a possible target peptide in pathogenesis and are compatible with a model whereby self-reactive T cells specific for low-affinity peptide-MHC complexes may escape thymic negative selection.      

GAD65-Reactive T cells in a Non-diabetic Stiff-man Syndrome Patient

GAD65 (glutamic acid decarboxylase) is an important autoantigen in both type 1 (insulin-dependent) diabetes mellitus (IDDM) and the neurological autoimmune disease stiff-man syndrome (SMS), and is expressed in pancreatic islets as well as the nervous system. Still, only 30% of SMS patients also have type 1 diabetes. To study regulation of T cell responsiveness to GAD65, we investigated a non-diabetic SMS patient with HLA-DR3/7 (predisposing to type 1 diabetes) and high levels of type 1 diabetes-associated autoantibodies against GAD65 and islet cells, and compared the results with those of her diabetic son and two other SMS patients. T cell responses to GAD65 were repeatedly absent in primary stimulation, whereas IA-2, islet antigen and tetanus toxoid induced significant T cell proliferation. However, after in vitro restimulation, GAD65 reactive T cell lines and clones were obtained that were HLA-DR3 restricted, and cross-reactive with a homogenate of purified human pancreatic islets. These T cells produced the immunoregulatory cytokine IL-10 in combination with IFN-gamma and IL-4 (Th0). The dominant T cell epitope was mapped to the central region of GAD65. Although no primary response to whole GAD65 was detectable, the naturally processed GAD65 peptide epitope was recognized vigorously in the primary stimulation assay. The lack of detectable primary T cell responses to GAD65, together with the GAD65-specific cytokine production of restimulated T cells, suggest that GAD65-specific cellular autoimmunity in this patient is suppressed and may be related to the absence of diabetes despite humoral autoreactivity and genetic predisposition.     

Balance of GAD65-specific IL-10 production and polyclonal Th1-type response in type 1 diabetes.

It has been proposed that cytokine responses of memory CD4+ cells change from a T-helper 2 (Th2)-to a T-helper 1 (Th1)-dominant response as the disease progresses in non-obese diabetic (NOD) mice. However, the regulation of Th1/Th2 balance in spontaneous diabetes development in this model is not well understood. In this study, higher glutamic acid decarboxylase 65 (GAD65)-specific IL-10 production was observed at 10-12 weeks in NOD mice, and a marked increase of Th1-type response (IFN-gamma production) upon polyclonal (anti-CD3 antibody) stimulation was observed just before diabetes development along with a decline of GAD65-specific IL-10 production. Moreover, there was a clear negative correlation between IL-10 level upon GAD65 stimulation and log(IFN-gamma) level upon anti-CD3 antibody stimulation (r=-0.999, p<0.001). These results suggest that the balance between GAD65-specific IL-10 production and polyclonal Th1-type response may regulate the onset of hyperglycemia in type 1 diabetes in NOD mice.     

Flow cytometry for the analysis of T cells expressing CD69 after stimulation with glutamic acid decarboxylase

Type 1 diabetes mellitus is a T-cell mediated autoimmune disease in which the insulin-producing pancreatic beta cells are selectively destroyed. We recently found that the detection of cell-mediated immune response to glutamic acid decarboxylase (GAD) was more useful than the detection of specific autoantibodies for the diagnosis of type 1 diabetes mellitus. In this study, we established a flow cytometric analysis for the detection of activated T cells in whole venous blood, obtained from diabetic patients and normal controls after stimulation by GAD. Two millitiers of peripheral venous blood and 6 hours incubation time were used for performing the test. It was found that 33% (3/9) type 1 diabetic patients, 7.7% (1/13) type 2 diabetic patients and neither patients with fibrocalculous pancreatopathy nor normal controls had > or = 20% CD8+ T cells expressing CD69. The results suggest that flow cytometry may be a useful tool for the detection of surrogate markers of type 1 diabetes mellitus.     

Islet-cell antigen-reactive T cells show different expansion rates and Th1/Th2 differentiation in type 1 diabetic patients and healthy controls

The low frequency of islet-cell antigen-reactive T cells in type 1 diabetes makes their direct measurement difficult. Commonly used in vitro expansion could alter in vivo frequencies and Th1/Th2 differentiation states. Using IFN-gamma/IL-4 double color ELISPOT, we tested longitudinally the reactivity of PBMC from HLA-matched diabetic patients and healthy controls to GAD65, IA-2, and proinsulin peptides ex vivo and after in vitro culture. The peptide-reactive T cells showed IFN-gamma bias in the patients' PBMC in the primary assay. During in vitro culture, both IFN-gamma- and IL-4-producing cells were induced in controls, suggesting that the precursor cells were uncommitted naive T cells in vivo. In contrast, in diabetic patients, the ex vivo IFN-gamma response was conserved during culture, suggesting their Th1 commitment. Using CFSE-dye-dilution, we demonstrate that naive T cells expand in vitro at a faster rate than memory cells, which might account for the differences in expansion rates between diabetic patients and controls.     

Induction of interferon-gamma and IL-4 production by mitogen and specific antigens in peripheral blood lymphocytes of Type 1 diabetes patients.

A functional imbalance in cytokine production resulting in dominance of Th1 over Th2 type response has been suggested to play a critical role in the pathogenesis of type 1 diabetes. In this study the cellular responses to pokeweed mitogen and a panel of specific antigens were analysed by measuring the production of IFN-gamma and IL-4 cytokines at the levels of mRNA expression (expression index=antigen/medium) and protein secretion in culture supernatants. Two enterovirus preparates were included due to the suggested significance of these viruses in the aetiology of type 1 diabetes. The study included 22 children with newly-diagnosed type 1 diabetes, 15 children with longer duration of disease and 20 healthy children. Comparisons were made between age- and sex-matched groups. Newly diagnosed diabetic patients had significantly higher IFN-gamma mRNA expression index (p<0.02) but also higher IL-4 mRNA expression index (p<0.05) in tetanus toxoid stimulated peripheral blood mononuclear cells compared to healthy controls. Also the diabetic patients studied 3-72 months after the diagnosis of type 1 diabetes showed a tendency to higher IFN-gamma mRNA expression index compared to controls (0.05相似文献   

Expression of beta-cell autoimmunity does not differ between potential dizygotic twins and siblings of patients with type 1 diabetes

Twin studies help to elucidate the contribution of genes and environment to type 1 diabetes (T1DM). The Diabetes Prevention Trial-1 (DPT-1) tested for anti-islet autoantibodies: 34,765 non-diabetic non-twin siblings of patients with T1DM, and 896 non-diabetic potential twins of patients with T1DM. Zygosity (being monozygotic [MZ] or dizygotic [DZ]) was unknown except for 357 non-diabetic subjects with opposite gender to their diabetic twin, who must be DZ. Expression of cytoplasmic islet cell (ICA), GAD65, ICA512 and insulin autoantibodies in 357 different-sex (DZ) potential non-diabetic twins of T1DM patients was, respectively, 4.5%, 4.7%, 3.0% and 2.4%, which was lower than in 539 same-sex potential non-diabetic twins (including MZ and DZ) of T1DM patients for ICA (7.8%, p < 0.05), GAD65 (13.4%, p < 0.0001) and ICA512 (6.5%, p < 0.03). In contrast, expression of ICA, GAD65, ICA512 and insulin autoantibodies was not significantly different in different-sex (DZ) potential twins versus all siblings (respectively, 4.2%, 4.8%, 2.2%, 2.5%), different-sex siblings (3.9%, 4.9%, 2.2%, 2.5%) or same-sex siblings (4.4%, 4.7%, 2.2%, 2.5%) of T1DM patients. In conclusion, anti-islet autoimmunity is not increased in non-diabetic DZ twins of T1DM patients compared to non-diabetic siblings of T1DM patients, suggesting that the greater environmental sharing by twins does not increase risk of anti-islet autoimmunity.     

Regulatory Th2-type T cell Lines Against Insulin and GAD Peptides Derived from Orally- and Nasally-Treated NOD Mice Suppress Diabetes

Non-obese diabetic (NOD) mice spontaneously develop diabetes. Ourselves and others have previously shown that oral and nasal administration of insulin or glutamic acid decarboxylase (GAD) suppresses development of diabetes in the NOD mouse and that this suppression appears secondary to the generation of regulatory T cells that act by secreting anti-inflammatory cytokines such as IL-4 and TGF-beta. In the present study, we analysed cytokine patterns associated with mucosal administration of insulin B-chain, B-chain peptide 10-24 and GAD peptide 524-543 and derived lines and clones from mucosally-treated animals. Mice were fed five times (400-600 microg/feed) or nasally-treated three times (60 microg/application), and 2 days after the last treatment were immunized in the footpad with the mucosally administered antigen in CFA. Primary immune responses in the popliteal lymph node were measured 10 days after immunization and lines and clones were then established from the primary cultures. There was significantly less IFN-gamma production in mucosally-treated mice associated with increased production of IL-10 and TGF-beta. The nature of the antigen appeared to determine cytokine production as the B-chain given either orally or nasally primed for TGF-beta responses, whereas mucosally administered B-chain peptide 10-24 primed for IL-10. T cell clones, established from draining lymph nodes of fed or nasally-treated animals, secreted IL-4, IL-10 and TGF-beta whereas those from non-fed mice secreted IL-2 and IFN-gamma. Transfer of Th1 lines with splenocytes from diabetic NOD mice into NOD or NOD/SCID animals accelerated diabetes, whereas transfer of Th2 lines suppressed the development of diabetes. Our results further support a role for Th2-type cells in the regulation of diabetes in NOD mice.     

Absence of significant Th2 response in diabetes-prone non-obese diabetic (NOD) mice.

Accumulating evidence suggests that Th1 T cells play a pivotal role in the development of autoimmune diabetes. Conversely, promoting a Th2 response inhibits disease progression. However, it has not been determined whether Th2 cells are regulatory T cells that fail at the time of diabetes development in naive non-diabetic NOD mice. Therefore, in order to evaluate cytokine secretion by spleen and islet infiltrating T cells in NOD mice at different stages of the autoimmune process, we developed an ELISPOT assay that detects IL-2, IL-4, and interferon-gamma (IFN-gamma) secretion in vitro at the single-cell level. We showed that, whatever the age considered, IFN-gamma is predominantly secreted, and that no IL-4-secreting cells are detected in the islets of male and female NOD mice. Spleen cells from 8-week-old female NOD mice, which include regulatory suppressor T cells, do not secrete IL-4, either upon presentation of islet cell antigens in vitro, or after transfer in vivo, but do secrete IFN-gamma. IFN-gamma secretion by T cells from diabetic mice results from CD4 but not CD8 T cells in transfer experiments into NOD/severe combined immunodeficient (SCID) recipients. These results suggest that (i) detection of regulatory CD4 T cells in NOD mice is not paralleled by a Th2 response; (ii) beta cell destruction does not depend on a switch from a Th2 to a Th1-type response; and (iii) CD8 T cells do not participate in induction of diabetes by secreting IFN-gamma.     

The antiviral 2',5'-oligoadenylate synthetase is persistently activated in type 1 diabetes

Type 1 diabetes results from autoimmune destruction of the pancreatic beta-cells. Although viruses have been implicated as etiologic factors, specific pathogenic mechanisms have not been identified. Recently, increased attention has focused on the role of the innate antiviral defense system in directing adaptive immune responses. In this context, the pathogenesis of type 1 diabetes may involve an aberrant response to endogenous or exogenous viruses or their products. The family of 2',5' oligoadenylate synthetases (2', 5' AS) are IFN-alpha-inducible, RNA-dependent effector molecules in the antiviral defense system. We show that lymphocytic 2',5' AS activity is significantly increased in type 1 diabetes, both in recent-onset and in long-standing type 1 diabetes, and in diabetic twins from monozygotic twin pairs. The activity of 2',5' AS was not elevated in patients with type 2 diabetes or multiple sclerosis thus excluding hyperglycemia or autoimmunity per se as inducing upregulation of enzyme activity. In recent-onset diabetic patients, lymphocyte levels of protein kinase p68 and MxA, two other IFN-alpha-inducible antiviral proteins, were similar to control levels. These data suggest that the increased 2',5' AS activity may reflect an aberrant response to viruses or RNA molecules originating from exogenous or endogenous sources.     

HBV感染患者2′,5′寡腺苷酸合成酶、IL-2和IL-12水平检测及意义

目的:选用2′,5′寡腺苷酸合成酶(2-5OAS)作为干扰素观察指标,IL-2、IL-12作为Th1应答观察指标,了解内源性干扰素系统和Th1应答在HBV感染发病机制中作用。方法:用放射同位素法测定单核细胞2-5OAS活性;ELISA法测定血清IL-2、IL-12。结果:无症状HBsAg携带组2-5OAS、IL-2、IL-12含量与正常对照组无显著差异(P>0.05),急性肝炎组均显著高于正常对照组(P<0.01),慢性乙型肝炎轻、中、重度组、慢性重型肝炎组、肝硬化组、肝癌组均显著低于正常对照组(P<0.05),并且随慢性肝炎病情加重以及肝硬化、肝癌发生而递减,其中肝硬化、肝癌组处于最低水平(与慢性肝炎各组比较P<0.05)。结论:在HBV感染发病过程的不同阶段和不同临床分型患者中,其内源性干扰素系统和Th1应答反应都是有显著差异的,细胞免疫对病毒感染的痊愈起主导作用。     

Anti-GAD65 reactive peripheral blood mononuclear cells in the pathogenesis of cystic fibrosis related diabetes mellitus

OBJECTIVE: A role of autoreactive T cells for type 1 diabetes pathogenesis is considered crucial. In our pilot study we addressed if autoreactive mononuclear cells are present also in peripheral blood of patients with other specific forms of diabetes as cystic fibrosis related diabetes (CFRD). METHODS: Cellular immune responses to a known beta-cell autoantigen (GAD65 and GAD65 derived peptides) were analysed by ELISPOT (IFN-gamma) and by protein microarray analysis in four patients suffering from CFRD, in four cystic fibrosis (CF) patients without diabetes, in eight type 1 diabetes patients (without CF) and in four healthy controls. RESULTS: Response to the autoantigen GAD65 (protein and peptides) was observed in 7/8 patients suffering from CF and in all type 1 diabetes patients. Post-stimulation production of Th1 cytokines (IFN-gamma, TNF-beta) was observed in 2/4 CFRD, 1/4 CF patients and in 7/8 type 1 diabetes patients. All these patients carry prodiabetogenic HLA-DQ genotype. Th2- and Th3 type of cytokine pattern was observed in 2/4 CF patients. Production of IL-8 was observed in the third CFRD as well as in the third CF patient and in 1/8 type 1 diabetes patient and borderline production of this chemokine was also observed in 2/4 healthy controls. No reaction was observed in the other 2/4 healthy controls and in the fourth CFRD patient who carried a strongly protective genotype and did not produce autoantibodies. The most potent peptide of GAD65 was amino acids 509-528. CONCLUSIONS: We consider our observations as a sign of a reaction directed against the self-antigen GAD65 that are closely connected to type 1 diabetes. In CF patients who do not develop diabetes autoreactive mechanisms are very probably efficiently suppressed by immune self-tolerance mechanisms. CFRD patients are a heterogenic group. To disclose those who may display features of autoimmune diabetes could have an impact for their therapy and prognosis.     

A low antigen dose selectively promotes expansion of high-avidity autoreactive T cells with distinct phenotypic characteristics: A study of human autoreactive CD4+T cells specific for GAD65

T cells specific for pancreatic islet proteins can be detected in type 1 diabetes patients and at-risk individuals, suggesting a failure of the central tolerance and negative selection. We addressed the question, how antigen dose shapes the diversity of CD4+ autoreactive T cells specific for glutamate decarboxylase 65 (GAD65) in a healthy HLA-DR*0404+ individual, with a persistent GAD65-specific T-cell response. CD4+T cells from this subject were stimulated with decreasing concentrations of the GAD65 555-567 (557I) peptide, and T-cell clones were derived from the tetramer-binding cell population. Functional and structural avidity, TcR-Vβ usage, and cytokine profiles were investigated at a clonal level. T-cell clones established with a low antigen dose (0.1 and 1 μg/ml) displayed higher avidity in contrast to the clones established with the highest antigen dose (10 μg/ml; Mann–Whitney U test, p = 0.003 and 0.006, respectively). The T-cell clones stimulated with the lowest peptide dose also had a higher tetramer-binding affinity than clones stimulated with the highest dose (p = 0.026). The majority (60.0%) of the high-avidity clones expressed TcR-Vβ5.1 chain whereas only one (12.5%) low-avidity clone did. All clones displayed Th0/Th2 cytokine profiles, but intermediate and high-avidity clones produced more IL-10 than low-avidity clones (p = 0.032). The results demonstrate an important role of the antigen dose in the determination of characteristics of the responding T-cell repertoire. High IL-13 and IL-10 production by GAD65-reactive T cells suggests a more anti-inflammatory profile of this healthy individual underlying protection from T1D.     

GAD65 and insulin B chain peptide (9-23) are not primary autoantigens in the type 1 diabetes syndrome of the BB rat

To investigate whether GAD65 whole molecule, GAD65 p35 or insulin B chain peptide (amino acids 9-23) play an essential role in the pathogenesis of type 1 diabetes in the BioBreeding (BB) rat, we gave serial injections of GAD65, p35 or insulin B chain (9-23) to six groups of BB/Worcester rats. The individual antigens were administered either intrathymically on day 2 and intraperitoneally in MF 59-0 adjuvant 5 times during the first 5 weeks, or by intranasal instillation once neonatally and 5 days/week for the following 6 weeks. Control groups were injected with vehicle only. Age of onset of diabetes and degree of insulitis were not different between controls and antigen-treated rats. Rats that received GAD65 intrathymically and intraperitoneally developed high GAD65-antibody titers without altering diabetes development. In GAD65-treated animals, serum antibodies recognized epitopes at 3 sites on GAD65 in diabetic animals but only at 1 site in non-diabetic animals. GAD65-injected animals also showed a significant reduction of IFN-gamma mRNA expression in the thymus. This study provides evidence against the hypothesis that GAD65 and insulin B chain peptide (9-23) are primary diabetogenic autoantigens in BB rats because immunizations with these antigens and GAD65-induced immune deviation did not alter the development of diabetes.     

Macrophages from a type 1 diabetes mouse model present dysregulated Pl3K/AKT,ERK 1/2 and SAPK/JNK levels

Diabetes causes dysregulation in signal transduction in immune cells leading to an impaired response to pathogens. Herein, we investigated the impact of type 1 diabetes (T1D) in bone marrow-derived macrophages (BMDM), using male non-diabetic and diabetic C57BL/6 mice (alloxan 60 mg/kg, i.v., CEUA/FCF/USP - 467). Diabetic BMDM expressed impaired phosphoinositide 3-kinase (PI3K), being lower p-PI3K p55 levels and higher levels of PI3K p110 alpha, whereas protein kinase B (PKB/Akt) (Ser-473 and Thr-308), extracellular signal-regulated kinases (ERK 1/2), and stress-activated protein kinase (SAPK/JNK) were enhanced compared to non-diabetic BMDM. Further evaluation of the responsiveness to lipopolysaccharide (LPS; 0.1 and 1 ug/mL), diabetic BMDM and peritoneal macrophage secreted dysregulated levels of tumor necrosis factor (TNF)-α, interleukin (IL)-6, and IL-10 levels. In 24 h, diabetic BMDM stimulated by LPS presented lower metabolic activity, with no differences in cell surveillance. Therefore, LPS re-stimulation (0.1 ug/mL) in diabetic BMDM resulted in higher secretion of TNF-α compared to non-diabetic BMDM. However, diabetic peritoneal macrophages secreted similar IL-6 levels in the first and additional 24 h of LPS stimulation. In general, our results demonstrated that diabetes exerts an impact in both BMDM and peritoneal macrophages ability to secrete cytokine under LPS stimulation.     

Human leucocyte antigen-A2 restricted and Mycobacterium tuberculosis 19-kDa antigen-specific CD8+ T-cell responses are oligoclonal and exhibit a T-cell cytotoxic type 2 response cytokine-secretion pattern

CD8+ T cells can be grouped into two different types of secretory T lymphocytes, based on the cytokine-secretion pattern upon antigen exposure: those with a T-cell cytotoxic type 1 response (Tc1), which secrete interferon-gamma (IFN-gamma), or those with a T-cell cytotoxic type 2 response, which secrete interleukin (IL)-4 and IL-10. We examined the CD8+ T-cell response directed against an immunodominant human leucocyte antigen (HLA)-A2-presented peptide derived from a 19-kDa Mycobacterium tuberculosis-associated antigen. T cells were examined by functional analysis and by T-cell receptor (TCR) complementarity-determining region 3 (CDR3)-spectratyping, which defines the complexity of a T-cell response. T-cell stimulation with the immunodominant VLTDGNPPEV epitope yielded a Tc2 (IL-4) cytokine-secretion pattern and resulted in oligoclonal expansion of TCR-variable beta chain (VB) families, which differed from patient to patient. Generation of T-cell clones corroborated the notion that the CD8+ T-cell response directed against the HLA-A2-presented VLTDGNPPEV epitope leads to a Tc2 cytokine-secretion pattern in CD8+ T cells, as defined by IL-4 and granulocyte-macrophage colony-stimulating factor (GM-CSF) release. Characterization of the cytokine-secretion profile in HLA-A2/VLTDGNPPEV-tetramer sorted T cells from patients with active tuberculosis supported this observation: peptide-specific T cells from three of three patients secreted IL-4 and only one of three patients produced IFN-gamma in response to the nominal target epitope. Permutation of this T-cell epitope may aid to elicit a qualitatively different CD8+ T-cell response in patients with M. tuberculosis infection.     

The Expression of Cytokine Genes in the Peritoneal Macrophages and Splenic CD4- and CD8-Positive Lymphocytes of the Nonobese Diabetic Mice

Type 1 diabetes is an autoimmune disease that results from the destruction of the insulin-producing pancreatic beta islet cells, probably via the influence of cytokines. However, direct correlation between the expression of selected cytokines by various immune cells at different time points during the progression of the disease has not yet been clearly demonstrated. In this study, we showed that the mRNA expression of the pro-inflammatory cytokines, TNF-alpha, IL-1 beta, IL-6, and GM-CSF, were increased while the anti-inflammatory cytokine, TGF-beta, decreased in the peritoneal macrophages of nonobese diabetic (NOD) mice. IL-6 expression however decreased when the mice became diabetic. Surprisingly the expression of IFN-gamma and IL-2 by splenic CD4+ cells were lower in 5-week-old NOD mice as compared to the nonobese diabetic resistant (NOR) control mice, but their expression was higher in older NOD mice. The expression of IL-4 and IL-10 decreased in splenic CD4-positive lymphocytes. Splenic CD8-positive lymphocytes expressed increased levels of IFN-gamma and IL-10 but the latter decreased sharply when diabetes occurred. The relevance of these findings to the pathogenesis of type 1 diabetes is discussed.     

Gamma interferon paradoxically inhibits the development of diabetes in the NOD mouse

Gamma interferon (IFN-gamma) has been thought to play an important role in the pathogenesis of diabetes. This report determines if rIFN-gamma administration to NOD mice paradoxically inhibits the development of diabetes. Injections of recombinant rIFN-gamma of 5 x 10(3), 20 x 10(3), and 100 x 10(3) units, dose dependently inhibited the development of diabetes. The maximal rIFN-gamma dose decreased the incidence of diabetes from 74% in control animals to 42%. 100x10(3) unit rIFN-gamma dose significantly decreased insulitis score, and increased islet number. The development of diabetes in irradiated NOD mice was slower in animals injected with spleen cells from rIFN-gamma treated than from saline treated NOD mice suggesting that rIFN-gamma decreases anti-islet effector cell activity. The susceptibility to apoptosis was increased in splenic cells of rIFN-gamma treated mice. The expressions of the co-stimulatory molecules B7-2 and ICAM-1 were significantly increased in spleen cells of rIFN-gamma treated mice while the expression of MHC class I was decreased. In vitro studies demonstrated that NOD mouse mononuclear spleen cells preincubated with rIFN-gamma and subsequently cocultured with responder cells, potently inhibited responder T-cell proliferative responses. rIFN-gamma administration decreased IL-12 and IL-2 mRNA expression in spleen cells while increasing IL-1 expression. In conclusion, rIFN-gamma inhibits the diabetic process in NOD mice by decreasing anti-islet effector activity and in turn decreasing insulitis and islet destruction. The suppression of Th1 cell related cytokines and/or augmentation of the macrophage cytokine IL-1 may play a role in the diabetes sparing effect of rIFN-gamma.