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)

Multiple injections of subdiabetogenic doses of streptozotocin (SZ) to CD-1 male mice produce a diabetic syndrome that includes a cell-mediated immune reaction against the pancreatic islet. The importance of the host genetic background in the pathogenesis of this model of diabetes was studied by comparing various inbred strains of mice. Of eight strains of mice studied, only C57BL/KsJ developed insulitis and hyperglycemia comparable to that observed in CD-1 mice. In two mouse strains (DBA/J and BALB/cJ) having an H-2d haplotype similar to the C57BL/KsJ, only mild insulitis and glucose intolerance were observed. These data suggest that major histocompatibility complex genes, as presently defined, cannot be the only determinant of the severity of hyperglycemia and insulitis in this model.
Diabetes 1977 Oct
PMID:Genetic influence of the streptozotocin-induced insulitis and hyperglycemia. 14 86

Mice with different histocompatibility loci on an identical background genome (congenic resistant lines of mice) were used to study the possible influence of the histocompatibility complex on experimental diabetes. The major histocompatibility complex (H-2) was not found to influence the diabetogenic effect of encephalomyocarditis (EMC) virus. In contrast the glucose intolerance following heterologous and homologous immunization with pancreatic antigens appeared H-2 influenced. Antibodies against cell surface components on viable B-cells were present in serum from mice with glucose intolerance induced by homologous immunization. The results suggest that the susceptibility to experimental autoimmune diabetes in mice is influenced by the H-2 complex.
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PMID:The influence of the major histocompatibility complex (H-2) on experimental diabetes in mice. 21 79

The present study was undertaken to determine the importance of immune region-associated alloantigens for susceptibility to insulin-dependent diabetes (IDD), their possible influence on immunoglobulin G-insulin antibody formation, and their clinical significance. Incidence of DRw3 and DRw4 (HLA D-related immune region-associated alloantigens; w, defined by sera dispensed during the Seventh International Histocompatibility Workshop) was found with significantly increased frequency in the IDD patients (n = 50) compared to healthy individuals (n = 107). Subjects positive for DRw3 carry a 4.5-fold increased risk and those positive for DRw4 carry a 2.5-fold increased risk of developing IDD. By analyzing immunoglobulin G-insulin antibody titers in DRw3-positive and DRw3-negative patients (all treated with conventional Lente insulin), a significant tendency for high insulin-binding capacity (IBC) was noted in the latter group, yielding a mean IBC of 2.24 in DRw3-negative and 0.74 in DRw3-positive diabetics (P less than 0.02). A significantly increased insulin dosage was needed for adequate metabolic control in those patients with high IBC (IBC greater than 3.0 U/liter). Patients with high IBC and high insulin requirements were predominantly found to be DRw3 negative. Our data demonstrate that IDD is more closely associated with DRw3 than with all hitherto described HLA A, B, and C locus alloantigens of the major histocompatibility complex. In addition, these immunogenetic factors seem to be of clinical importance by influencing the humoral antiinsulin immune response.
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PMID:Immunoglobulin G-insulin antibodies and immune region-associated alloantigens in insulin-dependent diabetes mellitus. 42 93

The BB rat is among the best models of insulin-dependent diabetes mellitus--with onset and pathogenesis closely resembling the human disease. One unusual feature is a severe T-cell lymphopenia, which appears to be inherited as a recessive trait controlled by a single gene, Lyp. Based on genetic analysis of several crosses, we show that development of diabetes involves at least three genes: Lyp, which is tightly linked to the neuropeptide Y (Npy) gene on chromosome 4, a gene linked to the major histocompatibility complex (MHC) on chromosome 20, and a third unmapped gene for which the Fischer rat strain carries an allele conferring resistance.
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PMID:Genetic dissection of autoimmune type I diabetes in the BB rat. 130 51

Type 1 or insulin-dependent diabetes mellitus (IDDM) is an autoimmune disease of the insulin-producing pancreatic beta-cells which is determined by both genetic and environmental factors. The major histocompatibility complex and the insulin gene region (INS) on human chromosomes 6p and 11p, respectively, contain susceptibility genes. Using a mostly French data set, evidence for linkage of INS to IDDM was recently obtained but only in male meioses (suggesting involvement of maternal imprinting) and only in HLA-DR4-positive diabetics. In contrast, we find evidence for linkage in both male and female meioses and that the effect of the susceptibility gene(s) in the INS region is not dependent on the presence of HLA-DR4.
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PMID:Insulin gene region-encoded susceptibility to type 1 diabetes is not restricted to HLA-DR4-positive individuals. 134 71

Type 1, insulin-dependent diabetes mellitus (IDDM) appears to result from a T cell-dependent destruction of insulin-producing pancreatic beta cells. In non-obese diabetic (NOD) mice and in other rodent models of human IDDM, final expression of disease may be controlled by protective, as well as, destructive T cell influences. Previously, a CD8+ T cell clone, I.S. 2.15, was isolated directly from islets of disease-resistant male NOD mice. Upon transfer to young NOD recipients, the non-cytolytic I.S. 21.5 T cell clone, confers in vivo protection from two forms of accelerated IDDM. The present study demonstrates that I.S. 2.15 T cells induce in vitro immunosuppression. The suppressive effects of I.S. 2.15 T cells are mediated through soluble factor(s) and are independent of T cell activation, cell contact, antigen specificity or the major histocompatibility complex (MHC). By polymerase chain reaction (PCR), I.S. 2.15 T cells contain mRNA species encoding for the potentially immunosuppressive cytokines, interleukin-10 (IL-10) and transforming growth factor-beta (TGF-beta). The T cell suppressive effects engendered by I.S. 2.15 T cells closely mimic those observed with TGF-beta. Moreover, I.S. 2.15-induced immunosuppression correlates with intracellular levels of TGF-beta mRNA. These results establish that immunoregulatory T cells are present within islets in IDDM-resistant NOD mice and may impact on final disease expression through the production of soluble mediator(s).
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PMID:A protective NOD islet-infiltrating CD8+ T cell clone, I.S. 2.15, has in vitro immunosuppressive properties. 138 12

Numerous studies have implicated the major histocompatibility complex (MHC) class II alleles, DR2 and DQw1, as multiple sclerosis (MS) susceptibility loci, however, the involvement of other loci is implied by twin studies and the relative lack of haplotype sharing for MHC. To evaluate the role that the TCR alpha chain genes may have in MS susceptibility, three variable (V) alpha polymorphisms were examined for associations in MS patients. Genotype and allele frequencies were compared to four different control groups: unaffected siblings and parents of the MS patients, patients with insulin-dependent diabetes mellitus (IDDM) and healthy unrelated Caucasians. No significant differences in allele and genotype frequencies at these three loci were observed in the MS population compared to the control groups. In addition, we analysed the distribution of haplotype sharing in affected sibling pairs. Among 30 informative families, there was no significant increase in haplotypes shared by affected siblings over that expected based on random segregation. Our results do not support suggestions that germline TCR alpha chain genes contribute to genetic susceptibility in MS.
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PMID:T cell receptor alpha chain polymorphisms in multiple sclerosis. 138 54

Previously, we showed that transgenic expression of the MHC (major histocompatibility complex) class II I-E molecules prevented insulitis in non-obese diabetic (NOD) mice at the age of 19 weeks. To rule out the possibility that the I-E expression merely delays the onset of insulitis, we have further characterized the expression and function of the I-E molecule expressed in transgenic NOD mice and confirmed our previous observations. Northern blot analysis showed that the transgenic E alpha d gene was expressed in a pattern similar to the endogenous E alpha d gene in BALB/c mice. The newly expressed I-E molecules were recognized as an alloantigen by the T lymphocytes of normal NOD mice as shown by mixed lymphocyte reaction (MLR). Transgenic NOD mice were resistant to the treatment by cyclophosphamide, which effectively induces diabetes in normal NOD mice, and did not develop diabetes up to 40 weeks of age. On the basis of these findings, we discuss the role of I-E molecules in the prevention of diabetes in NOD mice.
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PMID:Complete prevention of diabetes in transgenic NOD mice expressing I-E molecules. 154 33

Polymorphisms were sought between HLA B and tumor necrosis factor (TNF) using three genomic probes. Extensive polymorphism was detected within a panel of 50 cell lines including 37 homozygotes representing 21 different ancestral haplotypes (AH). Following Taq I digestion of genomic DNA, we observed three allelic patterns with probe X (R17A) and four with probe V (R9A). Seven different allelic patterns were found with probe Y (M20A) after Taq I + Rsa I digestion. Family studies showed that the Y, X, and V alleles were inherited and segregated with HLA haplotypes. A striking feature of the allelic patterns detected by these probes was that cells with the same AH had identical Y, X, and V alleles (i.e., the alleles were haplotypic). Of 15 different Y-X-V haplotypes observed, 11 were found to be specific for a particular AH (i.e., were haplospecific). Four were shared by more than one AH, but in these instances there were extensive similarities in other regions within the major histocompatibility complex (MHC), for example, the Japanese 46.2 (HLA Bw46-DRw8) and the Chinese 46.1 (Bw46-DR9) share all alleles between HLA C and C4 and differ only in class II, suggesting their relatively recent divergence by recombination between C4 and DR. Surprisingly, two insulin-dependent diabetes mellitus (IDDM)-resistant but race-specific AHs 52.1 (Bw52-DRB1*1502, Japanese) and 7.1 (B7-DRB1*1501, Caucasoid) carry the same Y-X-V haplotype, suggesting the possibility of localizing gene(s) relevant to IDDM. The present study confirms that MHC AHs have been conserved en bloc, including the region between HLA B and TNF.
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PMID:Haplospecific polymorphism between HLA B and tumor necrosis factor. 156 85

Antigen processing for presentation of peptide epitopes by major histocompatibility complex (MHC) class I molecules involves genes in the MHC class II region. Among these, PSF1 and PSF2 encode subunits of a transporter, which presumably delivers cytosolic peptides across the endoplasmic reticulum membrane to class I molecules. This close functional relationship of the transporter and class I heavy chain genes and their linkage within the MHC raise the question of whether PSF1 and PSF2, like most class I genes, are polymorphic. By single-strand conformation polymorphism analysis and DNA sequencing, a small number of amino acid sequence variants of both PSF1 and PSF2 was identified in a panel of cell lines. This limited polymorphism may contribute to a higher degree of variability at the level of the functional transporter, in which different alleles of the PSF1 and PSF2 subunits may be combined. A possible involvement of the PSF1 and PSF2 genes in susceptibility to MHC-associated diseases was examined in a preliminary assessment in patients with ankylosing spondylitis, insulin-dependent diabetes mellitus, or celiac disease.
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PMID:Allelic variants of the human putative peptide transporter involved in antigen processing. 157 Mar 16

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