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)

It is nearly 20 years since the first reports appeared linking genes within the human major histocompatibility complex, the HLA region, with disease. The literature now contains many hundreds of papers confirming an increased frequency of different HLA antigens in a diverse spectrum of conditions, ranging from narcolepsy to diabetes. Over the years many different hypotheses have been proposed to explain this association, but none has been proven. Nevertheless, our knowledge of the HLA region and the function of its many genes is expanding rapidly and the pathogenesis of many HLA-linked diseases may soon become apparent. In this review we aim to provide clinicians with a broad understanding of the basis for the association between HLA and disease. We will describe the genes of the HLA region before discussing the diseases with which they are linked. Finally, we will explore mechanisms through which HLA genes might influence disease.
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PMID:HLA and disease. 179 96

Insulin-dependent diabetes mellitus (IDDM) is a polygenic disease caused by autoimmune destruction of insulin-producing beta cells in the islets of Langerhans. Its onset is preceded by a long and variable period in which lymphoid cells infiltrate the pancreas but first remain outside the islets (peri-insulitis) before invading them (insulitis). Among susceptibility loci, only the major histocompatibility complex (MHC) has been clearly assigned. Genetic study of the nonobese diabetic (NOD) mouse model for insulin-dependent diabetes mellitus has revealed genetic linkage of insulitis and of early onset diabetes with two non-MHC loci mapping to chromosome 3 and 11 respectively. Here we report a close association of periinsulitis with a third non-MHC locus mapping to chromosome 1. Successive stages in the progression of diabetic disease thus appear to be controlled by distinct genes or sets of genes.
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PMID:Identification and mapping to chromosome 1 of a susceptibility locus for periinsulitis in non-obese diabetic mice. 189 73

Spontaneous development of diabetes in the nonobese diabetic (NOD) mouse is mediated by an immunological process. In disease-transfer experiments, the activation of diabetes has been reported to require participation of both CD4+ and CD8+ T-cell subsets. These findings seem to indicate that the CD4+ cells are the helper cells for the activation of cytotoxic CD8+ cells that directly destroy islet beta cells in type I diabetes. In this report we challenge this interpretation because of two observations: (i) Destruction of syngeneic islet grafts by spontaneously diabetic NOD mice (disease recurrence) is CD4+ and not CD8+ T-cell dependent. (ii) Disease recurrence in islet tissue grafted to diabetic NOD mice is not restricted by islet major histocompatibility complex antigens. From these observations we propose that islet destruction depends on CD4+ effector T cells that are restricted by major histocompatibility complex antigens expressed on NOD antigen-presenting cells. Both of these findings argue against the CD8+ T cell as a mediator of direct islet damage. We postulate that islet damage in the NOD mouse results from a CD4+ T-cell-dependent inflammatory response.
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PMID:The role of CD4+ and CD8+ T cells in the destruction of islet grafts by spontaneously diabetic mice. 189 42

In vitro culture of rat islets at 24 degrees C for 7 days in tissue culture medium CMRL 1066 almost completely eliminated lymphoid cells from the islets. Immunostaining of the islets with monoclonal antibody OX4 for demonstration of class II major histocompatibility complex (MHC)-expressing cells revealed a decrease from 13.1 +/- 0.6 positive cells per islet on day 0 to 0.7 +/- 0.1 cells per islet on day 7. A comparable decrease was found using OX1 for demonstration of all leukocytes. In contrast, culture of rat islets at 24 degrees C for 7 days with tissue culture Roswell Park Memorial Institute (RPMI) 1640 medium was not as effective in eliminating lymphoid cells as in medium CMRL 1066 (3.0 +/- 0.2 class II MHC positive cells per islet at 7 days). Effective elimination of intraislet lymphoid cells apparently is due to the combined effect of low temperature culture and the tissue culture medium CMRL-1066. The second goal of the study was to determine whether the destructive effect of interferon gamma (IFN-gamma) on rat islets in culture was due to intraislet lymphoid cells. In vitro culture of rat islets with IFN-gamma (1000 units/ml) at 37 degrees C caused almost complete destruction of the islets at 7 days. If intraislet lymphoid cells were eliminated from the islets by in vitro culture at 24 degrees C followed by exposure to IFN-gamma (1000 units/ml) for 7 days at 37 degrees C, then IFN-gamma did not cause destruction of the islets and transplants of the treated islets produced normoglycemia in diabetic recipient mice. These findings indicate that intraislet lymphoid cells are responsible for destruction of islet cells when these cells (presumably macrophages) are activated by IFN-gamma. Intraislet lymphoid cells may play a significant role in destroying islet cells in autoimmune diabetes.
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PMID:Activation of intraislet lymphoid cells causes destruction of islet cells. 190 27

The mechanisms contributing to the development of autoimmune insulin-dependent diabetes mellitus have been analyzed in allophenic mouse chimeras of the NOD in equilibrium with C57BL/6 strain combination (where NOD is nonobese diabetic). Occurrence of lymphoid cell infiltration (insulitis) in pancreatic islets was observed in the majority of such chimeras. The development of insulitis was found to correlate with major histocompatibility complex chimerism in lymphoid cells and in thymus cortical regions. Chimeras with more than 50% of C57BL/6 lymphoid cells rarely developed insulitis. Our data suggest that the correlation with the thymic cortical region is absolute. Thus, all individuals displaying NOD or NOD/C57BL/6 thymic cortical regions developed insulitis, whereas we have not observed insulitis in chimeras with only C57BL/6 thymic cortical regions. Thus the positive selection of T cells appears to play a crucial role in the development of insulin-dependent diabetes mellitus.
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PMID:The phenotype of lymphoid cells and thymic epithelium correlates with development of autoimmune insulitis in NOD in equilibrium with C57BL/6 allophenic chimeras. 192 97

Several autoimmune diseases have been linked to an aberrant expression of major histocompatibility complex (MHC) products Ethanol enhances Class I and Class II products on a variety of cell types, and there is evidence for an autoimmune etiology in numerous pathologies associated with alcoholism. We examined whether ethanol alters the expression of Class I and Class II MHC products on human fetal islet-like cell clusters. Incubation of islet-like clusters for 48 hr in ethanol at a starting concentration of 1.5% increased the percentage of single cells expressing Class I. The percentage of cells expressing Class II did not change, but their relative mean fluorescence increased significantly. These findings suggest that alcohol ingestion could alter MHC expression on pancreatic islet cells in vivo perhaps affecting the development of diabetes in genetically predisposed individuals. These findings also support the hypothesis that the rising incidence of type 1 diabetes seen in areas of the world where the per capita consumption of alcohol is also increasing may be a consequence of the immunological effects of alcohol intake.
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PMID:Ethanol influences class I and class II MHC antigen expression on human fetal islet-like cell clusters. 192 54

Class II major histocompatibility complex molecules are critical in both normal and abnormal immune responses. Both in mice and in humans, these molecules have been implicated in the development of various diseases, including insulin-dependent diabetes mellitus and systemic lupus erythematosus. The MRL/lpr mouse strain spontaneously develops a lupus-like illness with features that include anti-DNA antibodies, glomerulonephritis, and early death. We evaluated the structure of class II molecules from these mice, to investigate for unique sequences that might contribute to autoimmunity. Utilizing the polymerase chain reaction, we sequenced the second exons from the I-A and I-E genes of MRL/lpr and MRL-+/+ mice. We found that at the nucleotide level, there are several changes between MRL class II genes and the previously sequenced "k" haplotype, but at the protein level, they are identical. Furthermore, by comparing the sequences of class II genes from several strains of autoimmune mice, we found that there are conserved amino acids in the third hypervariable region of the I-E beta chain which may be important in the development of autoimmunity.
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PMID:Sequence of class II major histocompatibility complex genes from MRL mice. Conserved amino acids in the I-E beta chains from autoimmune mice. 195 19

It is generally held that one of the recessive genes controlling diabetes in the NOD mouse is linked to the major histocompatibility complex (MHC). Unique substitution of Asp57 with Ser in the A beta chain is considered to make the A beta gene the MHC-linked susceptibility gene. We therefore analysed the nucleotide sequences of the A beta second exon in ILI, CTS, and NON mice, which are nondiabetic inbred strains but are derived from the same Jcl-ICR mice as the NOD mouse. The DNA sequence analyses revealed that the A beta second exon sequences in the ILI and CTS mice, but not in the NON mouse, are identical to that of the NOD mouse. Possible roles of Ser57 of the A beta chain in the nondiabetic sister strains are discussed.
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PMID:The unique nucleotide sequence of the A beta gene in the NOD mouse is shared with its nondiabetic sister strains, the ILI and the CTS mouse. 196 45

Syndromes of insulin-dependent diabetes mellitus (IDDM) have been described in the mouse, in the rat and in man. In all three species, the presence of one or more specific alleles of the major histocompatibility complex is a prerequisite for the appearance of the disease. In the BB rat, diabetes is associated with the RT1u haplotype. We have performed a series of intercrosses of diabetic BB rats with normal Lewis and Buffalo rats and examined the offspring of all litters producing at least one diabetic animal. Forty-five of the 250 rats that developed diabetes were heterozygous for the RT1u haplotype by serotyping. Furthermore, the diabetic rats heterozygous by serotyping at the RT1A class I loci were also heterozygous at the RT1B and RT1D loci of the class II region and did not show evidence of a recombinant haplotype when examined by Southern blot analyses using molecular probes for class I and class II genes. Diabetic rats heterozygous or homozygous for RT1u were phenotypically indistinguishable with respect to age of onset and severity of disease. Therefore, in the rat, as in the human, a single dose of the high-risk allele at the major histocompatibility complex is sufficient for the development of IDDM if other susceptibility factors and the appropriate environmental factors are in place.
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PMID:A single dose of the MHC-linked susceptibility determinant associated with the RT1u haplotype is permissive for insulin-dependent diabetes mellitus in the BB rat. 197 48

The inbred non-obese diabetic (NOD) mouse is a spontaneous model for insulin-dependent diabetes mellitus (IDDM). As in man and BB rats, IDDM in the NOD mouse has an autoimmune aetiology. The disease is controlled by several genes, one of which, Idd-1, has been mapped to the major histocompatibility complex (MHC) on chromosome 17. However, Idd-1 has not yet been identified. To facilitate the identification of Idd-1 we have further analysed the MHC region for restriction fragment length polymorphisms and we find that the NOD mouse has a distinct haplotype: H-2K1nod Kd A beta nod A alpha d E beta nod TNF-alpha beta. In addition, the NOD mouse shows some similarities with the H-2b haplotype in the Q region, in that either the Q7 or the Q9 gene seems to be like that in the b-haplotype and that the Qa2 antigen is expressed, while other parts of this region are distinct from the b- as well as the d- haplotype. In contrast, the sister strain, the non-obese normal (NON) mouse, derived from the same cataract-prone line of mice as the NOD mouse, has an MHC Class I region indistinguishable from the b-haplotype, but the MHC Class II region is distinct from the NOD mouse as well as the b-, d- and k-haplotype.
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PMID:Restriction fragment length polymorphisms in the major histocompatibility complex of the non-obese diabetic mouse. 197 42

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