Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

The association of certain autoimmune diseases with HLA molecules is being refined through the use of sequence-specific oligonucleotide probes and amino acid sequencing, together with continuing elucidation of the functional features of HLA molecules derived from the milestone description by Bjorkman of the HLA molecular structure. The association of insulin-dependent diabetes mellitus and HLA began with weak associations of Class I antigens (B8 and B15) and progressed to Class II antigens (DR3 and DR4), then to subtypes of DR4 (Dw4, 10, and 14), and now to DQ molecules including the absence of aspartic acid at position 57 of the DQ beta chain and the presence of arginine at position 52 of the DQ alpha chain. In rheumatoid arthritis (RA) the HLA antigen association remains with certain Class II molecules of the DR series (DR4 and DR1) that share amino acid sequences with a restricted number of other DR antigens seen in RA, as well as a segment of the gp 110 protein of the Epstein-Barr virus. Although ankylosing spondylitis has a strong association with the Class I antigen B27, that association is not explained by any of the B27 subtypes defined by monoclonal antibodies, by the eight variable amino acids in B27 subtypes, or by the two unique amino acids on B27. The remarkable antibody cross-reactivity among lymphocytes bearing B27, a synthetic peptide sequence (63-84) of B27, and the 188-193 sequence of K. pneumoniae nitrogenase has provided strong support for molecular mimicry being an important mechanism in the association of HLA molecules with disease.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:HLA molecules in autoimmune diseases. 163 34

The finding of cross-reactive autoantibodies or sequence homology does not necessarily mean that this molecular mimicry is biologically meaningful or associated with disease pathogenesis. For example, relatives of persons with putative autoimmune insulin-dependent diabetes [123], and elderly humans [124] have a high incidence of autoantibodies which are generally not associated with autoimmune disease. In addition, natural antibodies to cell constituents [125] may be present in normal sera. These antibodies need to be directed against biologically important domains of host cell proteins in order to mediate autoimmune disease [27]. In spite of extensive homology between two sequences, a cross-reactive immune response may not be generated. The dissimilar amino acids should not be radical substitutions or affect the binding properties of the molecule. For instance, antibodies to synthetic peptides with only one substitution in a 19 amino acid sequence may not bind the whole protein [126]. Despite an identical six amino acid sequence shared by HLA-B27 and an EBV protein, no cross-reactive antibodies to EBV peptides were found in HLA-B27 positive patients with AS or RS. Unless the homology and subsequent crossreactive immune response can recognize a host protein intimately involved in disease pathogenesis, autoimmune disease is unlikely to occur.
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PMID:Antigenic mimicry and autoimmune diseases. 172 32

Two commonly used methods for screening hybridoma supernatants secreting monoclonal islet cell reactive antibodies (mc-ICRA) were performed to investigate the specificity of the monoclonals established. For this, endothelial, neuroblastoma, murine subcutis and two myeloma cell lines were used as targets in comparison to the insulin-producing rat insulinoma cell line (RIN), either immobilized and permeabilized in cellular enzyme linked immunosorbent assay (CELISA) or in suspension of viable cells in the indirect immunofluorescence test. In addition, rat splenocytes were used for estimating multireactivity of mc-ICRA in ELISA. Using permeabilized target cells, we obtained a high multireactivity of the monoclonal antibodies (mab) tested, indicating a high incidence of molecular mimicry between cytoplasmic antigens of different cell lines. In contrast to CELISA, if only cell surface antigens of viable cells are accessible, detected by the immunofluorescence technique, the high multireactivity is not observed. For investigating the specificity of monoclonals, the complexity of target antigens used must be taken into consideration.
Diabetes Res 1991 Jul
PMID:Different multiple reactivity of monoclonal islet cell binding antibodies using indirect immunofluorescence technique on viable cells or cellular ELISA on desiccated cells as target. 184 Oct 31

Viruses can initiate disease by many different means. Direct viral, immune mediated and host factors all play important parts. Molecular mimicry or having cross-reacting determinants that result in immune responses which have the potential to cause damage can be incorporated into this framework. Here, autoimmune responses generated by virus infection have been presented in relation to these other parameters. The cross-reacting immune response originally generated by virus would have to be directed toward or involve a disease inducing site such as an EAE (encephalitogenic), thyroiditis, or diabetogenic site. If the cross-reaction took place at a nondisease inducing site, the ensuring immune response may result in the production of autoantibodies, however no disease would occur. In other systems autoantibodies can potentiate an ongoing inflammatory response. This may be the case that is described here with Theiler's murine encephalomyelitis virus infection. Lastly, viruses having common determinants with MHC determinants may modify immune responses leading to immunosuppression and allowing virus to persist. In addition, similar determinants may lead to disease by an alternative route. For example, we have described a region of human cytomegalovirus that has a common determinant with HLA DR beta chain. This region is associated with diabetes in humans (Todd et al. 1988). Thus, many factors are involved in the outcome of disease induction by viruses of which autoimmunity is one.
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PMID:Is Theiler's murine encephalomyelitis virus infection of mice an autoimmune disease? 253 48

Epidemiologic studies suggest an association between insulin dependent diabetes mellitus and viral infections. Several candidates like cytomegalovirus, Coxsackie virus and hepatitis virus have a selective tropism for beta cells. Progress in the understanding of the pathogenic importance of such viruses has been facilitated by animal models with virus induced diabetes and infections of human pancreatic beta cells maintained in culture. Immunological studies of type I diabetes after viral infections suggest that virus may trigger pancreatic autoimmunity. Molecular mimicry between viral and tissue antigens may represent a possible mechanism. Loss of immune tolerance toward beta cells would only appear in genetically predisposed individuals. The better understanding of the pathogenesis of type I diabetes mellitus brings out new approaches to treatment.
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PMID:[Virus and insulin-dependent diabetes mellitus. Etiopathogenic perspectives]. 327 88

Enzyme-linked immunosorbent assay (ELISA) was used to study temporal development of murine autoantibodies against insulin and both type C and intracisternal type A retroviral antigens. The nonobese diabetic (NOD) mouse, a model for autoimmune, insulin-dependent diabetes, was compared with a related, but diabetes-resistant, strain, nonobese normal (NON). Similarly, C57BL/KsJ db/db mice (insulin-resistant model of insulin-dependent diabetes and obesity) were compared with diabetes-resistant C57BL/6 db/db mice. NOD mice developed much higher autoantibody titers than did NON mice. Whereas type C autoantibodies in NOD developed to peak titer shortly after mice were weaned, autoantibodies against insulin and p73 (group-specific antigen of the intracisternal type A particle) did not develop until shortly before, or concomitant with, the development of hyperglycemia. Two NOD mice not developing hyperglycemia during the 40-wk study period were distinguished from the mice developing diabetes by a delayed onset of insulin (but not p73) autoantibodies. Our findings suggest that in NOD mice, the appearance of insulin and p73 autoantibodies signifies that extensive underlying necrosis of beta-cells occurred. C57BL/KsJ db/db mice (with extensive beta-cell necrosis and early hyperglycemia) developed much higher autoantibody titers to insulin and p73 than did the diabetes-resistant C57BL/6 db/db mice. However, the presence of autoantibodies in normoglycemic C57BL/KsJ +/db controls demonstrated that elevated autoantibody titers alone were insufficient to produce diabetes in this model. Absorption studies indicated that autoantibodies against p73 recognized a common epitope on insulin and IgE-binding factor. The potential significance of this molecular mimicry is discussed.(ABSTRACT TRUNCATED AT 250 WORDS)
Diabetes 1988 Mar
PMID:Molecular mimicry between insulin and retroviral antigen p73. Development of cross-reactive autoantibodies in sera of NOD and C57BL/KsJ db/db mice. 328 34

The findings of small anterior and posterior relatively echo-free spaces adjacent to the epimyocardium by echocardiography is more often indicative of pseudopericardial effusion due to subepicardial fat deposition rather than true pericardial effusion (PE), at least in older obese and Type II diabetic patients. This conclusion was based on the echo and computed tomography (CT) correlation performed in 10 consecutive patients (8 women, 2 men). The mimicry of various extracardiac and cardiac causes resulting in confusion with anterior and posterior PE is emphasized. Subepicardial fat deposition is one of the most common causes which mimic presence of small PE on echo and can be confirmed easily by limited CT of the chest. Age, sex, obesity, and diabetes mellitus (Type II) appear to be the most common predisposing factors for the accumulation of excess subepicardial fat.
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PMID:Pseudopericardial effusion: echocardiographic and computed tomographic correlations. 380 3

The possible role of amino acid sequence and epitope homologies between a protein P2-C of Coxsackie virus B4 and human GAD in the development of host-specific immune response in insulin-dependent diabetes mellitus (IDDM) (molecular mimicry) was investigated. Peptide antibodies to the P2-C protein, GAD65, and GAD67 were raised to analyze their immunoreactivity by enzyme-linked immunosorbent assay and immunoblotting with GAD purified from the brain and pancreas of mice that develop hyperglycemia after the infection. Additionally, antibody reactivity to these peptide antigens was assessed in sera from the virus-infected mice and IDDM patients. All three peptide antisera reacted very strongly with homologous peptides; P2-C antiserum cross-reacted with GAD65 as efficiently as GAD65 antiserum with P2-C, but no cross-reaction was detected between P2-C and GAD67 although cross-reaction between the two GADs was quite pronounced. P2-C antiserum immunocomplexed with GAD65 from mouse brain or pancreas, whereas GAD65 and GAD67 antisera both immunocomplexed with the two GADs from these sources. Most of the sera from virus-infected mice were reactive to brain and pancreas GAD65 and also to P2-C peptide, whereas some reacted to GAD65 and a few to GAD67 peptides. A number of IDDM sera reacted with mouse GAD65 and also with P2-C and GAD65 peptides, whereas only a few reacted with GAD67 peptide. The immunoreactivity of the mouse and IDDM sera to P2-C and GAD65 peptides was blocked by pre-adsorption with mouse GAD. The results suggest that molecular mimicry may play a role in the pathogenesis of the disease.
Diabetes 1994 Oct
PMID:Antibodies to glutamic acid decarboxylase and P2-C peptides in sera from coxsackie virus B4-infected mice and IDDM patients. 752 7

This review examines the association between retroviruses and diabetes in the mouse model, the role of retroviruses in the pathogenesis of Type 1 diabetes and the mechanisms by which retroviruses can induce an autoimmune reaction. Three putative mechanisms are considered: the expression of retroviral protein(s) on the beta-cell surface as the first step in immune response against beta cells; the homology of a retroviral product with a self antigen inducing a cross-reacting autoimmune response (molecular mimicry); and a retroviral product showing homology with interleukin-2 and inducing T-cell activation against beta-cell antigens and loss of tolerance. These findings are discussed for their possible implications in the pathogenesis of human Type 1 diabetes.
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PMID:Retroviruses and diabetes in animal models: hypotheses for the induction of the disease. 755 4

The literature examined in this review points to the possible involvement of infectious agents in the pathogenesis of autoimmune endocrine diseases, primarily autoimmune thyroid disease and diabetes mellitus. Various mechanisms have been proposed to explain induction of autoimmunity by infection but it seems that three possibilities may be important in individuals susceptible to developing autoimmune disease: molecular mimicry (perhaps to retroviruses); polyclonal T cell activation (by an endogenous superantigen or an infecting organism); and MHC class II antigen induction. It seems reasonable that all three mechanisms operate together or separately in different individuals. Data continue to accumulate in favour of infectious agents being important initiators of autoimmune disease.
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PMID:Infections and autoimmune endocrine disease. 772 98


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