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Query: UMLS:C0011849 (
diabetes
)
277,896
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Six CD4+ and three CD8+ islet-reactive T-cell clones were established from lymphocytes infiltrating the pancreatic islets of NOD mice. Two of six CD4+ T-cell clones responded to NOD islet cells only, not to spleen cells. The remaining four clones responded to both islet cells and spleen cells from NOD mice, but not to cells from other strains of mice, including SJL, C3H, C57BL/6, and DBA/2 mice. None of the CD4+ T-cell clones had a cytotoxic effect on the cultured islet cells. On the other hand, all of the CD8+ T-cell clones showed both a proliferative response and a cytotoxic effect on the islet cells, with the restriction of
MHC class I
H-2Db. Electron microscopic studies revealed that islet-specific CD4+ T-cells attached closely to islet cells but did not destroy them. In contrast, CD8+ T-cell clones showed pseudopodialike protrusions into beta-cells, but not alpha- or delta-cells, leading to selective destruction of beta-cells. CD8+ CTLs could not be isolated from islets of NOD mice less than 10 wk of age, even if the islets showed lymphocytic infiltration, whereas CD4+ T-cells could be isolated from islets of these younger NOD mice. On the basis of these observations, we concluded that CD4+ and CD8+ T-cells interact differently with beta-cells at different stages in T-cell--mediated beta-cell destruction. CD4+ T-cells may secrete cytokines, which in turn activate effector cell populations, whereas CD8+ T-cells may act as a final effector directly involved in beta-cell destruction.
Diabetes
1992 Aug
PMID:Studies on autoimmunity for T-cell-mediated beta-cell destruction. Distinct difference in beta-cell destruction between CD4+ and CD8+ T-cell clones derived from lymphocytes infiltrating the islets of NOD mice. 162 75
NOD/Lt mice harboring a hybrid rat insulin-promoter/SV40 large T-antigen gene spontaneously develop beta-cell adenomas. NIT-1 is a pancreatic beta-cell line established from one of these transgenic mice. Immunocytochemical staining of passage 18 cells showed most contained insulin, with less than 5% containing glucagon, and none containing pancreatic polypeptide or somatostatin. Glucagon content radioimmunoassayed in cell extracts was only 0.27% of the insulin content. Two-hour insulin secretion at 16.5 mM glucose was 638 ng/10(6) cells (41% of intracellular content) compared to only 1.3 ng glucagon (32% of intracellular content). Stimulated insulin secretion was consistently observed in response to 11 and 16.5 mM glucose between passages 11 and 19. At passage 19, both theophylline and tolbutamide stimulated insulin secretion at 5.5 mM glucose. Northern-blot analysis confirmed high levels of insulin mRNA but only trace glucagon mRNA and undetectable somatostatin mRNA. Interferon-gamma (IFN-gamma)-induced
MHC class I
RNA expression was correlated with markedly increased antigen expression at the cell surface. Similarly, a MHC-linked "occult" class I-like antigen detected by Cr release assay only after exposure of standard NOD/Lt islet cells to IFN-gamma was strongly induced by IFN-gamma in NIT-1 cells. Cell surface MHC class II antigen was not constitutively expressed on NIT-1 cells and could not be detected after IFN-gamma incubation, despite demonstration of IFN-gamma-induced Aa, Ab, and Li invariant-chain RNA transcripts. Similarly IFN-gamma induction of intercellular adhesion molecule 1 (Icam-1) transcripts was not accompanied by demonstrable cell surface expression of ICAM-1 antigen.(ABSTRACT TRUNCATED AT 250 WORDS)
Diabetes
1991 Jul
PMID:NIT-1, a pancreatic beta-cell line established from a transgenic NOD/Lt mouse. 164 94
We attempted to examine the immunopathological change of the pancreatic islets of newly diagnosed Type 1 (insulin-dependent) diabetic patients and thereby to obtain useful information for the therapy of the patients. For this purpose, pancreas biopsy under laparoscopy was performed 2-4 months after the onset of Type 1
diabetes
in seven newly diagnosed patients. All biopsies were performed safely without any complications. Immunohistochemical examination of the biopsy specimens revealed a marked decrease of insulin-containing cells, preservation of glucagon-containing cells, and various degrees of expression of
MHC class I
and class II antigens in islet cells and in endothelial cells within and around the islets. Signs of active autoimmune phenomena, e.g. lymphocytic infiltration or immunoglobulin deposition in islets, were not detected in any of these patients by light microscopical evaluation. We conclude that pancreas biopsy under laparoscopy has shown various immunological changes in the islets of newly diagnosed Type 1 diabetic patients. Pancreas biopsy, however, may not be suitable under the present protocol for the selection of patients for immunotherapy because of problems including sampling errors.
...
PMID:Examination of islets in the pancreas biopsy specimens from newly diagnosed type 1 (insulin-dependent) diabetic patients. 169 24
Pancreatic islet cells are the targets of an autoimmune response in type I
diabetes
. In the nonobese diabetic (NOD) mouse model of autoimmune
diabetes
, expression of major histocompatibility complex (MHC) class I proteins was inversely correlated with
diabetes
; in this mouse a mutation in the MHC class II-linked gene for the putative
MHC class I
peptide transporter was also present. Mice deficient in
MHC class I
expression because they do not produce beta 2-microglobulin also developed late onset autoimmune
diabetes
. In cells from humans with type I
diabetes
expression of
MHC class I
was decreased; subsets of prediabetics categorized as most likely to become hyperglycemic also had low
MHC class I
. T cell responses to self antigens are faulty in diabetics. In sets of genetically identical twins that are discordant for
diabetes
, the defect appeared to reside with the antigen presenting cell. Thus, a lack of surface MHC class I protein is associated with autoimmune
diabetes
; the concomitant defect in antigen presentation may impair the development of self tolerance, which could result in autoimmune disease.
...
PMID:Linkage of faulty major histocompatibility complex class I to autoimmune diabetes. 135 67
The expression of MHC class II molecules on beta-cells of the pancreatic islet has been proposed to play a role in the genesis of insulin-dependent
diabetes mellitus
in the NOD mouse. We investigated this by immunofluorescent double labeling of islet cells with anti-MHC and anti-CD45 to identify cells of hematopoietic origin.
MHC class I
expression increased with age on CD45- islet cells. MHC class II expression was not observed on CD45- islet cells at any age; the only cells in the islet that were MHC class II positive were also CD45+. This indicates that all MHC class II-positive cells in the islet are lymphoid cells that infiltrate the islet, whereas the islet endocrine cells express no MHC class II molecules. However, an increase in
MHC class I
expression occurred on beta-cells, and this may play a role in immunopathogenesis.
Diabetes
1991 May
PMID:Exclusive expression of MHC class II proteins on CD45+ cells in pancreatic islets of NOD mice. 182 81
The immune mechanisms directly responsible for beta-cell destruction in insulin-dependent
diabetes
are undefined. We studied the role of
MHC class I
-restricted T lymphocytes in the development of
diabetes
in cyclophosphamide (CY)-treated male and untreated female NOD mice (H-2Kd,Db). After administration of CY to 10-wk-old male NOD/Shi/Kbe mice, 37 of 64 (58%) phosphate-buffered saline-injected control mice and 13 of 22 (59%) anti-Kb and 12 of 27 (44%) anti-Db monoclonal antibody (MoAb)-injected mice became diabetic by 14 wk of age, whereas only 3 of 38 (8%) anti-Kd and 2 of 13 (15%) anti-Lyt-2 MoAb-injected mice did. In untreated female NOD/Shi/Kbe mice, 30 of 46 (65%) mice developed spontaneous
diabetes
by 30 wk of age, whereas none of 9 anti-Kd MoAb-injected mice became diabetic. Immunohistochemical studies showed that islet-infiltrating cells in CY-treated control mice were composed mainly of both L3T4+ and Lyt-2+ T lymphocytes, whereas many L3T4+ and very few Lyt-2+ lymphocytes infiltrated within the islets in anti-Kd MoAb-injected mice. Administration of anti-Lyt-2 MoAb induced the absence of Lyt-2+ T lymphocytes in the islet and spleen. However, anti-Kd MoAb did not change the number of spleen cells or the T-lymphocyte subset and response to concanavalin A. These results suggest that
MHC class I
Kd-restricted Lyt-2+ T lymphocytes play an important role as direct effector cells in destruction of beta-cells in NOD/Shi/Kbe mice.
Diabetes
1991 Sep
PMID:Prevention of cyclophosphamide-induced and spontaneous diabetes in NOD/Shi/Kbe mice by anti-MHC class I Kd monoclonal antibody. 193 25
Lymphocytic hypophysitis, a rare disease hitherto restricted to women, usually presents with symptoms of hypopituitarism in relationship to pregnancy. Two patients who developed pituitary insufficiency from lymphocytic hypophysitis are described. In the first, visual deterioration due to chiasmal compression from hypophysitis arising in ectopic pituitary tissue responded to bromocriptine and corticosteroids. In the second, an insidious onset of hypopituitarism occurred over 5 years in an elderly male. Combined HLA and complement typing confirmed that both patients shared
MHC class I
, II and III alleles. These class II and III alleles have been described in association with Hashimoto's thyroiditis and insulin-dependent
diabetes mellitus
(IDDM), both of which may be associated with antipituitary antibodies. The features of these two cases extend the known clinical and pathological spectrum of this disease and, through identifying a common immunogenetic background, provide a possible link between the previous associations of this disorder and autoimmune thyroid disease and IDDM.
...
PMID:Lymphocytic hypophysitis. The clinical spectrum of the disorder and evidence for an autoimmune pathogenesis. 206 Jan 53
Normal mouse islet cells express low levels of
MHC class I
molecules and undetectable or extremely low levels of MHC class II molecules. Class I expression was dose-dependently augmented by incubation with interferon-gamma (IFN-gamma) or tumor necrosis factor (TNF). Although neither IFN-gamma nor TNF alone induce class II molecules on islet cells, synergistic interaction of IFN-gamma (200 U/ml) and TNF (200 U/ml) may induce class II expression on approximately 50% of islet cells. Niacinamide and 3-aminobenzamide, both inhibitors of ADP ribosylation and scavengers of free radicals, attenuated the class II expression induced by IFN-gamma and TNF. Twenty millimolar niacinamide and 10 mM 3-aminobenzamide reduced the rates of class II antigen-positive cells to mean +/- SD 3.6 +/- 0.3 and 6.1 +/- 1.9%, respectively. The agents did not affect the cytokine-induced augmentation of class I antigens. The inhibition of class II molecule expression may at least partly account for the preventive effect of niacinamide on autoimmune-associated beta-cell damage in NOD mice.
Diabetes
1990 Sep
PMID:Inhibition of cytokine-induced MHC class II but not class I molecule expression on mouse islet cells by niacinamide and 3-aminobenzamide. 214 88
The effect of cyclosporin administered from 30 to 100 days of age on pancreatic events and the development of insulin-dependent
diabetes
has been studied by serial pancreatic biopsy of individual
diabetes
-prone BB/Edinburgh rats. Cyclosporin completely prevented the development of
diabetes
up to 150 days of age and reduced the incidence to 50% of controls at 452 days of age. Islet cell surface antibodies paralleled the development of
diabetes
. Insulin autoantibodies were unrelated to
diabetes
and not affected by cyclosporin. Immunohistochemical analysis of pancreatic biopsies from untreated control
diabetes
-prone rats with monoclonal antibodies specific for rat MHC molecules and T- and B-lymphocyte and macrophage subsets showed that the first abnormality seen in rats that subsequently developed
diabetes
was hyperexpression of
MHC class I
molecules on vascular endothelium and islet cells. This was followed by accumulation of ED1+ macrophages at perivascular and periductal sites adjacent to noninfiltrated islets. Increased expression of MHC class II molecules on vascular endothelial cells was also noted. Most cells infiltrating the islets initially were also ED1+ macrophages, followed by increasing numbers of other activated effector cells including helper and cytotoxic-suppressor T lymphocytes and natural killer cells. Obliteration of insulin-containing cells was associated with regression of the infiltrate. Treatment with cyclosporin had no effect on pancreatic hyperexpression of
MHC class I
molecules but markedly inhibited accumulation of ED1+ cells at extraislet sites, the subsequent recruitment of immune effector cells, and islet infiltration. This resulted in a delay of the onset of
diabetes
in some rats and prevention of
diabetes
in others.
Diabetes
1990 Apr
PMID:Effect of cyclosporin on pancreatic events and development of diabetes in BB/Edinburgh rats. 218 Jul 61
An immunogold-silver enhancement technique, which combines effective labeling of viable isolated islets with the ultrastructural resolution of cytological details, was applied in electron microscopy to identify major histocompatibility complex (MHC) structures on islet cells. Incubation of freshly isolated islets from CAP (RT1c) and LEW (RT1l) rats with OX18, an
MHC class I
antibody, showed strong positive reactivity in macrophages and/or dendritic-like cells (M0-DCs) and vascular endothelial cells (VEs) and a comparatively weaker reactivity in endocrine alpha-, beta-, and delta-cells. With MHC class II antibody OX6 (anti-I-A), M0-DCs were strongly labeled in both rat strains on the surface and on internal structures. Three of five particularly high titered batches of OX6 revealed MHC class II expression on VE and beta-cells. Four days of in vitro culture in combination with a high concentration of glucose and interferon-gamma induced strong enhancement of
MHC class I
structures and, to a lesser extent, class II structures on beta-cells.
Diabetes
1989 Jan
PMID:Immunoelectron microscopic localization of MHC structures in isolated pancreatic rat islets. 249 97
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