UMLS:C0011849 - FACTA Search

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Query: UMLS:C0011849 (diabetes)
277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have made three observations that are important for our understanding of the dynamics of presentation of diabetogenic Ags in immunologically induced diabetes. First, the APC in the islets of Langerhans were found normally to contain diabetogenic peptides on their I-Ag7 molecules. This was found in freshly harvested islet cells from prediabetic NOD mice and, importantly, from NOD.SCID mice. Second, the presence of diabetogenic lymphocytes improved the presenting function of intra-islet APC. We interpret this to mean that lymphocytes can regulate intra-islet APC function before the development of diabetes. Finally, spleen APC can be found bearing diabetogenic Ag after acute injury to islets. These APC may be important in lymphocyte stimulation outside the environment of the pancreas.
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PMID:Relationship between beta cell injury and antigen presentation in NOD mice. 756 Nov 22

To investigate diabetes resistance to T cell-mediated disease transfer, we administered islet-specific T cell clones to the F1 progeny of nonobese diabetic (NOD) mice that were crossed with various nondiabetes-prone inbred mouse strains. We investigated four diabetogenic CD4+ T cell clones and all induced insulitis and full development of diabetes in (SWR x NOD)F1, (SJL x NOD)F1, and (C57BL/6 x NOD)F1 mice. In contrast, (BALB/c x NOD)F1 and (CBA x NOD)F1 mice were susceptible to disease transfer by some T cell clones but not others, and (C57/L x NOD)F1 mice seemed to be resistant to both insulitis and disease transfer by all of the clones tested. Disease induced by the T cell clones in susceptible F1 strains was age dependent and could only be observed in recipients younger than 13 days old. Full or partial disease resistance did not correlate with the presence or absence of I-E, different levels of Ag expression in islet cells, or differences in APC function. The results from this study suggest that there may be multiple factors contributing to susceptibility of F1 mice to T cell clone-mediated induction of diabetes, including non-MHC-related genetic background, the immunologic maturity of the recipient, and individual characteristics of the T cell clones.
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PMID:Islet-specific T cell clones transfer diabetes to nonobese diabetic (NOD) F1 mice. 807 83

We isolated CD4+ and CD8+ T cell clones from pancreatic islets of non-obese diabetic (NOD) mice and studied their interactions with pancreatic islets, in culture. The three CD4+ T cell clones proliferated when cultured with islet cells from NOD, BALB/c, or C57BL/6 (B6) mice. For proliferation to the allogeneic islets, however, APC from NOD mice were required in the culture. Two of the clones also produced IFN-gamma upon culture with NOD islet cells. The Ag from islet cells responsible for T cell stimulation were not released into the supernatant but were cell associated. Paraformaldehyde treatment of islet cells, in fact, preserved their antigenicity. The fixed islet cells could present Ag to CD4+ T cell clones, provided live, syngeneic APC were added to the culture. We conclude from these experiments that islet cells donate Ag to the APC for presentation and that the function of APC is to process the Ag. The two CD8+ T cell clones proliferated and released IFN-gamma upon reaction with islet cells from either NOD or BALB/c but not B6 mice. The CD8+ T cell clones also reacted with the insulinoma NIT-1 cell line, derived from NOD mice. Fixation of NIT-1 cells did not impair recognition when live APC were present in the culture. In this case, however, the APC could be allogeneic. We conclude that CD8+ T cells directly recognized a MHC class I-restricted Ag on target cells, but needed the costimulatory effect of APC. We also found that CD8+ T cells killed islet cells. Two of the CD4+ T cell clones produced diabetes when transferred into male, irradiated NOD mice. For optimal transfer of disease, the CD4+ T cell clones had to be co-injected with CD8+ T cells from NOD diabetic mice. The two CD8+ T cell clones did not transfer disease.
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PMID:Presentation of beta-cell antigens to CD4+ and CD8+ T cells of non-obese diabetic mice. 810 46

The immunogenicity of murine pancreatic islets can be reduced by culture in 95% O2 prior to transplantation. Such cultured tissue can reverse diabetes indefinitely in nonimmunosuppressed, allogeneic recipients. Although the cultured graft does not trigger a rejection response, the graft retains recognizable alloantigens in that the graft is acutely rejected when the host is immunized with donor-type antigen-presenting cells. However, over time the recipients bearing cultured islet allografts become increasingly resistant to rejecting the established graft following APC challenge. Data show that this process of graft "stabilization" is a function of time postgrafting and initial graft mass. Graft stabilization is not due to a change in the vulnerability of the graft to immune recognition--that is, stabilization cannot be accounted for by the spontaneous adaptation of the long-term graft. Rather, graft stabilization is associated with a change in host reactivity (tolerance induction). This conclusion is based on the findings that (1) recipients of long-term established grafts (> 120 days) resist rejection of both the primary and secondary donor-type grafts, and (2) donor-specific tolerance can be transferred to severe-combined-immune-deficient (scid) recipient mice.
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PMID:Tolerance induction to cultured islet allografts. I. Characterization of the tolerant state. 817 46

The work presented in this review suggests that in human and murine type I diabetes, defective MHC class I expression on APC is linked to autoimmunity. The defect in self-antigen presentation is present on prediabetic and diabetic APC, and this presumably delivers abnormal or lack of signals to T cells to allow self tolerance. Since most autoimmune diseases have strong genetic linkage to MHC class II region, our recent results additionally demonstrating low MHC class I expression on lymphoid cells in a diversity of autoimmune diseases (hypothyroidism, rheumatoid arthritis, lupus, etc.) suggest that this pathway of abnormal class I presentation of self epitopes may be important for tolerance to many tissue-specific antigens (40). Certainly, the unanswered genetic questions will address the role of the specific genes controlling self-antigen presentation through MHC class I followed by T-cell education to self.
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PMID:Mechanisms of autoimmunity in type I diabetes. 844 41

Although T lymphocytes are the ultimate effectors of pancreatic beta cell destruction in autoimmune insulin-dependent diabetes, previous work has established that beta cell autoreactive T cells are generated in nonobese diabetic (NOD) mice as a result of APC dysfunctions. To determine if APC dysfunctions could result from developmental defects, we analyzed if macrophages (M phi) develop normally from NOD bone marrow stimulated with CSF-1 in the presence and absence of IFN-gamma. Due to interactions between the diabetogenic H-2g7 haplotype and background modifiers, NOD bone marrow cells were found to proliferate poorly to CSF-1 stimulation. IFN-gamma aberrantly increased CSF-1-stimulated proliferation of H-2g7 expressing bone marrow cells, although decreasing proliferation of bone marrow cells expressing diabetes resistant MHC haplotypes. FACS analysis indicated the diminished sensitivity of NOD hematopoietic precursors to CSF-1 was associated with a quantitative inability to generate phenotypically mature M phi. In addition to developmental defects, NOD M phi were also found to be functionally defective. Total MHC class I expression was aberrantly down-regulated in a tissue specific fashion in IFN-gamma-treated M phi from NOD mice, whereas MHC class I expression increased as expected in M phi from C57BL/KsJ (BKs) control mice. Total MHC class I expression also increased in IFN-gamma-treated M phi from NOR mice, a diabetes-resistant control strain that shares the H-2g7 haplotype of NOD, but contains BKs-derived genomic elements on chromosomes 2, 4, 11, and 12. This demonstrates differential trans-regulation of class I loci within the diabetogenic H-2g7 haplotype in NOD vs diabetes-resistant NOR mice. Aberrant down-regulation of MHC class I content in IFN-gamma-treated M phi from NOD mice was associated with decreased ability to activate CTL function. We propose these defects in M phi differentiation and function may interact with H-2g7 to generate APC in NOD mice that are unable to activate tolerogenic mechanisms, but remain capable of activating low level effector responses.
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PMID:Defects in the differentiation and function of antigen presenting cells in NOD/Lt mice. 845 Feb 29

The class II molecules of the diabetes-prone NOD mice, I-Ag7, showed very limited amounts of stable form when analyzed by SDS-PAGE. We included the analysis of spleen B cells and B lymphoma cells transfected with I-Ag7 genes. Early during bio-synthesis there was invariant chain binding to the alpha beta-chains. Examination of APCs from F1 mice (NOD x C57BL/6) indicated that the same APC expressed high levels of unstable I-Ag7 and normal amounts of stable class II molecules compared with the other haplotype (I-Ab). The half-life of I-Ag7-peptide complexes on the cell surface of APC was significantly shorter than that of other class II haplotypes. Direct biochemical demonstration of peptide interactions with I-Ag7 was difficult to demonstrate. In T cell assays, the immunogenic peptides, including the diabetogenic Ag, were rapidly lost when peptide-pulsed APCs were washed free of peptide. We hypothesize that the weak and unstable peptide-binding property of I-Ag7 molecules does not favor the elimination or inactivation of autoreactive T cells.
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PMID:The class II MHC I-Ag7 molecules from non-obese diabetic mice are poor peptide binders. 854 93

Between February 1989 and June 1994 193 cases of acute community acquired pneumonia (PAC) which were of intermediate or great severity were admitted to two hospitals in the South West of France. These patients were explored using bronchofibroscopy (FB) with a protected brush (BP) and alveolar microlavage (MLBA) and quantitative cultures were performed, also there were other specimens taken in a regular fashion. The percentage of positive examinations was 60% for brushings (BP), 59% for MLBA and 21% for blood cultures and 16% for serological tests. An aetiology was determined in 137 cases (70.9%). The organisms recovered were Streptococcus pneumoniae (49.6%), gram negative bacilli (17.4%), Haemophilus influenzae (11.7%), Mycoplasma pneumoniae (4.4%), Mycobacterium tuberculosis (4.4%), Staphylococcus aureus (3.6%), Chlamydia pneumoniae (2.2%), Legionella pneumophila (0.7%), and various 5.8%. The overall mortality was 15% despite immediate antibiotics based on the likely organism in 88% of cases. The study of prognostic factors confirmed the Fine score system (determined a posteriori) which constitutes a useful and practical index determining the management of PAC. On the other hand the role of bacteriological documentation in improving the vital prognosis remains to be confirmed. If bronchofibroscopy has appeared to us as a safe and useful means of investigation, the management of these disease remains to specified. We suggest that its use is reserved for subjects with life threatening disease (a Fine score equal to or greater than 3) or for those patients who are likely to have unusual germs: failure of previous antibiotics, diabetes, malnourishment, cancer, airflow obstruction and inhalation.
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PMID:[Acute community-acquired pneumonia of moderate and grave severity investigated by bronchoscopy. Analysis of 193 cases hospitalized in a general hospital]. 871 Dec 37

Two homozygous lines of transgenic NOD/Lt mice expressing MHC class II I-E molecules at quantitatively different levels were utilized to study mechanisms of I-E-mediated diabetes prevention. In line 12, I-E expression on APC at levels comparable with that in BALB/cByJ controls conferred only partial diabetes resistance. In line 5, greater than normal I-E levels on APC correlated with nearly complete resistance. Levels of endogenously encoded I-Ag7 correlated inversely with transgene-induced I-E expression. T cell transfer experiments into NOD/severe combined immunodeficient mice demonstrated the presence of pathogenic T cells in I-E+ donors, and that continuous expression of I-E on hemopoietically derived APC was required to block their pathogenic function. T cells from transgenic and nontransgenic NOD/Lt mice primed in vivo against the beta cell autoantigen 65-kDa isoform of glutamic acid decarboxylase (GAD65) and two peptides derived from this protein proliferated when restimulated in vitro. However, reverse-transcription PCR and ELISA measurements of cytokine mRNA and protein levels showed that the GAD65-reactive T cells from both line 5 and line 12 mice produced higher levels of IL-4 and lower levels of IFN-gamma than similar T cells from standard NOD/Lt mice. Thus, the inverse relationship between I-E and I-Ag7 expression was associated with qualitative differences in T cell responses to putative beta cell autoantigens. Collectively, these data indicate quantitative increases in I-E expression on APC may block insulin-dependent diabetes mellitus by altering the balance of cytokines produced by beta cell autoreactive T cells.
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PMID:Quantitative thresholds of MHC class II I-E expressed on hemopoietically derived antigen-presenting cells in transgenic NOD/Lt mice determine level of diabetes resistance and indicate mechanism of protection. 875 36

In nonobese diabetic mice, autoimmune diabetes progresses in an age-linked and gender-dependent manner. Insulitis begins in male and female mice at approximately 1 mo of age; however, 70 to 90% of females, but only 10 to 20% of males, become diabetic by 6 mo. Multiple studies propose that proinflammatory Th1 and immunomodulatory Th2 cytokines impact diabetes pathogenesis, but the role of these cytokines in spontaneous diabetes progression is not yet clear. We used quantitative reverse-transcriptase-coupled PCR to analyze expression of cytokines and APC costimulatory molecules in the islets of 20- to 180-day-old male and female nonobese diabetic littermates, and identified three stages in diabetes progression. At 1 to 2 mo of age, islet-infiltrating T cells displayed a Th1 cytokine bias in females, and a Th2 cytokine bias in males. In females, stage II (2-3 mo of age) was characterized by an increase in islet-infiltrating T cells, APC, and Th1 cytokines, whereas male infiltrates did not increase in size, and Th1 cytokine expression continued to decline during this interval. Islet infiltration reached a plateau (stage III) in 3- to 4-mo-old females, months before overt diabetes onset. Our data imply that Th cytokine expression in early insulitis exerts substantial impact on beta cell destruction and overt diabetes. A clinical implication of our results is that young individuals in the early stages of insulitis are ideal candidates for therapeutic intervention to minimize beta cell destruction and morbidity.
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PMID:IL-4 expression at the onset of islet inflammation predicts nondestructive insulitis in nonobese diabetic mice. 903 92

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