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)

Cryopreservation is an effective method of islet storage that can facilitate clinical trials of islet transplantation. In the present study we examined the effect of cryopreservation on the survival of islet allografts and the quantity of islet MHC antigen expression. Islets isolated from CBA/J (H-2k) mice were transplanted into streptozotocin-induced diabetic BALB/c (H-2d) mice treated with or without antilymphocyte serum (ALS). Frozen/thawed (F/T) grafts were cooled slowly to -40 degrees C, stored at -196 degrees C, and thawed rapidly. Fresh and F/T isograft controls reversed diabetes promptly and maintained normoglycemia > 100 days. Allografts of fresh and F/T islets induced normoglycemia initially, but graft failure ensued at 18.2 +/- 1.5 and 16.4 +/- 1.9 days, respectively. ALS treatment prolonged allograft survival significantly to 35.3 +/- 3.9 and 37.5 +/- 6.3 days for fresh and F/T islets, respectively. Following cryopreservation, the quantity of class I antigen expression was reduced by 40%, while the quantity of class II expression was variable. These data indicate that murine islet MHC class I expression is reduced after cryopreservation. This decrease was not associated with altered survival of allogeneic grafts.
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PMID:The effect of cryopreservation on the survival and MHC antigen expression of murine islet allografts. 842 42

In a model of congenic and intra-MHC recombinant rat strains, the differential role of various histocompatibility antigens in renal subcapsular transplantation of purified islets of Langerhans is evaluated. Class I MHC antigens of the RT1.A region, expressed on the endocrine cells of the islets themselves, do not induce graft rejection on their own. MHC class I antigens as encoded by the RT1.C region do not induce rejection either. MHC class II antigens as encoded by the RT1.B/D region are not expressed on the endocrine pancreas, not even during rejection. Although interstitial dendritic cells situated within the islets express these antigens, an isolated RT1.B/D incompatibility of islets is associated with prolonged survival in contrast to rapid rejection of fully MHC-mismatched grafts. Unlike other organs, islets matched for all MHC antigens, but incompatible at minor histocompatibility antigens, undergo rejection early after transplantation.
Diabetes 1993 Jan
PMID:The role of histocompatibility antigens in transplantation of isolated islets of Langerhans in the rat. 842 Aug 22

The overexpression of major histocompatibility complex (MHC) class I molecules in endocrine epithelial cells is an early feature of autoimmune thyroid disease and insulin-dependent diabetes mellitus, which may reflect a cellular response, e.g., to viruses or toxins. Evidence from a transgenic model in pancreatic beta cells suggests that MHC class I overexpression could play an independent role in endocrine cell destruction. We demonstrate in this study that the transgenic overexpression of an allogeneic MHC class I protein (H-2Kb) linked to the rat thyroglobulin promoter, in H-2Kk mice homozygous for the transgene, leads to thyrocyte atrophy, hypothyroidism, growth retardation, and death. Thyrocyte atrophy occurred in the absence of lymphocytic infiltration. Tolerance to allogeneic class I was revealed by the reduced ability of primed lymphocytes from transgenic mice to lyse H-2Kb target cells in vitro. This nonimmune form of thyrocyte destruction and hypothyroidism recapitulates the beta-cell destruction and diabetes that results from transgenic overexpression of MHC class I molecules in pancreatic beta cells. Thus, we conclude that overexpression of MHC class I molecules may be a general mechanism that directly impairs endocrine epithelial cell viability.
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PMID:Nonimmune thyroid destruction results from transgenic overexpression of an allogeneic major histocompatibility complex class I protein. 844 97

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

Lymphocytes from patients with insulin-dependent diabetes mellitus (IDDM), a chronic autoimmune disease, have recently been shown to have decreased surface expression of MHC class I antigens. Since IDDM and other autoimmune diseases share a strong genetic association with MHC class II genes, which may in turn be linked to genes that affect MHC class I expression, we studied other autoimmune diseases to determine whether MHC class I expression is abnormal. Fresh PBLs were isolated from patients with IDDM, Hashimoto's thyroiditis, Graves' disease, systemic lupus erythematosis, rheumatoid arthritis, and Sjogren's syndrome. Nondiabetic and non-insulin-dependent diabetes mellitus patients served as controls. MHC class I expression was measured with a conformationally dependent monoclonal antibody, W6/32. Freshly prepared PBLs from the autoimmune diseases studied and the corresponding fresh EBV-transformed B cell lines had decreased MHC class I expression compared with PBLs from normal volunteers and non-insulin-dependent (nonautoimmune) diabetic patients. Only 3 of more than 180 donors without IDDM or other clinically recognized autoimmune disease had persistently decreased MHC class I expression; one patient was treated with immunosuppressive drugs, and subsequent screening of the other two patients revealed high titers of autoantibodies, revealing clinically occult autoimmunity. Patients with nonautoimmune inflammation (osteomyelitis or tuberculosis) had normal MHC class I expression. Autoimmune diseases are characterized by decreased expression of MHC class I on lymphocytes. MHC class I expression may be necessary for self-tolerance, and abnormalities in such expression may lead to autoimmunity.
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PMID:Defective major histocompatibility complex class I expression on lymphoid cells in autoimmunity. 848 90

To study self reactivity, a transgenic mouse model has been established in which the lymphocytic choriomeningitis virus (LCMV) glycoprotein (gp) is expressed in the beta-islet cells of the pancreas (rat insulin promoter (RIP)-gp). These mice (H-2b) do not spontaneously develop diabetes; however, infection with the LCMV strain WE rapidly induces hyperglycemia. In this study, comparative analysis of H-2k RIP-gp-transgenic animals demonstrated that the haplotype influences the incidence and kinetics of diabetes and alters the requirement for the CD4+ T cell subset. This study also showed that the properties of the virus expressing the self target Ag determined whether hyperglycemia occurred in RIP-gp-transgenic mice. Various LCMV strains were able to induce diabetes in RIP-gp-transgenic animals, whereas infection with a recombinant vaccinia virus expressing LCMV-gp (vacc-gp) did not induce diabetes. However, vacc-gp could induce diabetes in double (RIP-gp/TCR)-transgenic mice, where the majority of CD8+ T cells expressed a receptor specific for LCMV-gp, suggesting that a critical number of self-reactive T cells must be activated to induce disease. Notably, histologic analysis of pancreata taken various days after LCMV or vacc-gp infections indicated that induction of diabetes coincided with an increase in MHC class I expression on the islets of Langerhans. Additional studies with vacc-gp were done to determine other factors that possibly enhance autoimmune attack. Transgenic mice expressing both LCMV-gp and TNF-alpha under the control of the RIP were infected with vacc-gp, and 50% of RIP-gp/TNF-alpha-transgenic animals became hyperglycemic. These data suggest that the increased local lymphocyte traffic as a result of TNF-alpha expression attracts activated gp-specific T cells, enhancing the possibility of hyperglycemia. Collectively, these results demonstrate that the induction of diabetes in this model is influenced by the MHC haplotype, the infectious agent, TNF-alpha expression, the level of MHC class I expression, and the induction of a threshold number of self-reactive CTL.
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PMID:Induction of diabetes is influenced by the infectious virus and local expression of MHC class I and tumor necrosis factor-alpha. 849 10

The common class I alleles (e.g., Kd and Db) within the H2g7 major histocompatibility complex (MHC) clearly contribute to autoimmune IDDM in NOD mice, but the mechanism by which this occurs has been controversial. One laboratory has reported that the peptide transporter encoded by the Tap1 gene within H2g7 is defective, and this contributes to IDDM by impairing MHC class I-mediated antigen presentation. If true, defective MHC class I-mediated antigen presentation should segregate with the H2g7 haplotype. NOD mice, related congenic stocks, and other control strains were used to test this hypothesis. H2g7-positive strains did not differ from those expressing other MHC haplotypes in ability to present MHC class I-restricted H3aa or H3ab minor histocompatibility (H) antigens to cytotoxic T-lymphocytes (CTL). The H2g7 haplotype was found to have a reduced capacity to mediate MHC class I-restricted presentation of the H47a minor H antigen. However, MHC class I-restricted presentation of H47a was found to be Tap independent. NOD mice and control strains also did not differ in ability to activate adenovirus-specific MHC class I restricted CTL. Thus, the H2g7 haplotype is not characterized by a Tap gene defect that only impairs the inductive phase of the immune response. In addition, MHC class I-restricted presentation of either minor H or adenoviral antigens was equivalent in male and female NOD mice. Therefore, while the class I alleles of the H2g7 haplotype exert diabetogenic functions in NOD mice, this is not elicited through a Tap gene defect. The absence of female-specific Tap gene defects also indicates this cannot account for the reduced male incidence of IDDM in some NOD mouse colonies.
Diabetes 1996 Jul
PMID:MHC class I-mediated antigen presentation and induction of CD8+ cytotoxic T-cell responses in autoimmune diabetes-prone NOD mice. 866 41

We previously reported the generation and characterization of a panel of CD4(+) autoreactive T cell clones that suppress development of autoimmune diabetes in non-obese diabetic (NOD) mice. We showed that the protective capacity of the T cell clones correlated with secretion of an activity that potently inhibits allogeneic mixed lymphocyte reaction (allo-MLR). In this report, we describe the biological characteristics of the allo-MLR inhibitory activity (MLR-IA, short for mixed lymphocyte reaction inhibitory activity) secreted by the protective T cell clone, NOD-5. MLR-IA has little effect on initiation of proliferation in an allo-MLR, but it potently inhibits the maintenance and amplification of the proliferative response. MLR-IA is also capable of inhibiting concanavalin A (Con A) stimulated splenic responder T cell proliferation. MLR-IA is reversible in vitro and is not restricted by MHC class I or II proteins. MLR-IA does not affect IL-2 receptor expression of responding T cells and has no effect on IL-2-dependent proliferation of CTLL-20 T cells. Partially purified MLR-IA inhibits IL-2 production in a primary allo-MLR, and decreases IFN-gamma production during secondary allo-MLR and Con A activation, whereas it enhances IL-4 production in both primary and secondary Con A activation. MLR-IA is not neutralized by combination of antibodies specific for transforming growth factor-beta, IL-10, tumor necrosis factor-alpha/beta or IFN-gamma, suggestive of a novel activity. MLR-IA is ammonium sulfate precipitable, sensitive to protease digestion and is destroyed by boiling, indicating that a protein moiety is part of its active structure. Our work suggests that a potentially novel immunoregulatory activity, capable of inhibiting T lymphocyte proliferation and IFN-gamma production, and stimulating IL-4 production, may regulate development of autoimmune diabetes in NOD mice.
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PMID:Biological characteristics of an immunoregulatory activity secreted by an autoreactive CD4+ T cell clone that suppresses autoimmune diabetes in non-obese diabetic mice. 867 56

NOD mouse-derived beta-cell-specific cytotoxic T-cell (beta-CTL) clones are diabetogenic in adult NOD mice, but only if co-injected with splenic CD4+ T-cells from diabetic animals. This investigation was initiated to determine whether infiltration of pancreatic islets by beta-CTL is a major histocompatibility complex (MHC) class I-restricted response, and whether beta-CTL has a direct cytopathic effect on beta-cells in vivo. Pancreatic islets from BALB/c (H-2d) or B6 (H-2b) mice were transplanted under the renal capsule of streptozotocin (STZ)-induced diabetic (NOD x BALB/c) F1 (H-2Kd, H-2Dd,b) or NOD x B6) F1 (H-2Kd,b, H-2Db) mice, respectively. H-2Kd-restricted beta-CTL clones from NOD mice were transfused into euglycemic mice within 3 days after transplantation. In all of the H-2d islet-grafted (NOD x BALB/c) F1 mice that received the beta-CTL clones, the beta-CTLs homed into the grafts, recruited host Mac-1+ cells and CD4+ and CD8+ T-cells, and caused diabetes within 7 days. In contrast, none of the H-2b islet-grafted (NOD x B6) F1 mice who received the beta-CTL clones and none of the H-2d islet-grafted (NOD x BALB/c) F1 mice who received a non-beta-cell cytotoxic CTL clone (N beta-CTL) developed graft inflammation or diabetes. Depletion of CD4+ T-cells in H-2d islet-grafted (NOD x BALB/c) F1 mice did not prevent beta-CTL clone-induced diabetes but reduced its severity. In contrast, when the beta-CTL clones were injected > 8 days after transplantation, none of the H-2d islet-grafted (NOD x BALB/c) F1 mice became diabetic or developed graft inflammation. We conclude that (1) islet-derived beta-CTLs can destroy beta-cells in vivo; (2) infiltration of grafted islets by beta-CTLs is an MHC class I-restricted response; (3) beta-CTLs can recruit naive CD4+ T-cells to the site, leading to further beta-cell damage; and (4) revascularized islet grafts are, like pancreatic islets of irradiated adult NOD mice, "sequestered" from circulating beta-CTLs.
Diabetes 1996 Aug
PMID:Major histocompatibility complex class I-restricted infiltration and destruction of pancreatic islets by NOD mouse-derived beta-cell cytotoxic CD8+ T-cell clones in vivo. 869 Jan 61

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