Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0011854 (type 1 diabetes)
20,749 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The reasons why diabetic patients present with an increased susceptibility to frequent and protracted infections remain unclear. The virtual absence of epidemiological studies of the independent risk factors involved contrasts with the multitude of in vitro models focused on the metabolism and function of immune cells from diabetic patients. This review analyzes some of these models and their clinical relevance. The different levels of diabetes pathogenesis: genetic (Type 1), autoimmune (Type 1) and metabolic (Type 1 and Type 2) are responsible for immune abnormalities demonstrated in in vitro models. The participation of genetic and autoimmune factors has been mainly characterized on T lymphocyte function. The B8 DR3 haplotype is associated with several minor immunologic abnormalities in vitro. However, the high frequency of this haplotype in healthy individuals argues against its involvement in significant defects of antimicrobial immunity. Genetic deficiency of C4, present in 25% of Type 1 diabetic patients could, on the other hand, be responsible for opsonization defects against encapsulated pathogens. Several immunological abnormalities related to the autoimmune process preceding the onset of Type 1 diabetes mellitus, such as the depletion of memory CD4+ cells and the defective natural killer activity could transiently impair host defences against viral diseases. Several in vitro functional defects of the immune system have been correlated with the metabolic control of diabetic patients. This suggests the involvement of insulinopenia in some of the abnormalities observed. Insulinopenia-induced enzymatic defects have often been proposed to inhibit energy-requiring functions of phagocytes and lymphocytes. However, the relevance of this mechanism could be confined to patients with extremely severe metabolic abnormalities. The importance of systemic consequences of insulinopenia such as hyperglycaemia and ketosis has also been addressed. Usually, the defects induced in vitro by these factors are slight and require supraphysiologic concentrations of glucose or ketone bodies. Recent studies have shown abnormalities of signal transduction mechanisms in which insulinopenia itself and other factors such as circulating immune complexes could be involved. Despite numerous controversies, many in vitro studies of the immune cells of diabetic patients have demonstrated significant defects which bear quantitative similarities with abnormalities described in other immunodeficiency syndromes. Furthermore, several mechanisms have been proposed to link the different defects observed with the specific infections encountered in diabetic patients.
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PMID:Impaired immune responses in diabetes mellitus: analysis of the factors and mechanisms involved. Relevance to the increased susceptibility of diabetic patients to specific infections. 139 73

A significant increase in the prevalence of selective IgA deficiency has been observed in patients with autoimmune disorders such as systemic lupus erythematosus and rheumatoid arthritis. Insulin-dependent diabetes mellitus (IDDM) is an autoimmune disease and susceptibility to both IDDM and IgA deficiency is associated with HLA DQB1 alleles encoding non-Asp amino acids at position 57. In order to assess whether the prevalence of selective IgA deficiency is increased in IDDM, we have screened a homogeneous series of adult patients with IDDM for selective IgA deficiency. One patient (1:261) was found to have a selective IgA deficiency. The prevalence of selective IgA deficiency among adult French blood donors is 1:1400. Thus, although IDDM and selective IgA deficiency are both associated with the presence of non-Asp amino acids at position 57 of the HLA DQ beta chain, the frequency of this immunodeficiency in adult IDDM patients is not significantly increased.
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PMID:The prevalence of selective IgA deficiency in type 1 diabetes mellitus. 152 Apr 83

During the last 25 years the concept of a chronic autoimmune process leading to the development of insulin dependent diabetes (IDD) has emerged. The presence of two animal models for IDD, the BB rat and the NOD mouse, has improved our ability to understand the process leading to beta cell destruction. The hallmark of an autoimmune disease is the characteristic pathologic lesion of mononuclear infiltration of the pancreatic islets. Further histologic studies of the diabetic pancreas have identified the type of cells infiltrating the islets and led to the concept of pancreatic beta cells capable of presenting antigen. The initial description of linkage disequilibrium of HLA DR3 and DR4 alleles with IDD has now progressed to the molecular level with the identification of residue 57 of the HLA DQ beta chain as crucial to the genetic predisposition to IDD. Autoantibodies to cytoplasmic antigens (ICA), surface antigens, or a membrane protein of 64 kDa identified by immunoprecipitation, autoantibodies to secreted products such as insulin and proinsulin, and autoantibodies that are cytotoxic to cultured beta cells are islet specific autoantibodies that have been described. Some are probably only markers of immunologic activity; others might participate in the destruction itself. The use of ICA as a screening tool has been successful in identifying individuals prior to the onset of IDD. Widespread cellular immunological defects have been identified both in animal models and in man. In the BB rat, a seeming paradox of severe immunodeficiency occurs in an animal with autoaggressive destruction of beta cells. More subtle defects in immunoregulation have been described in the NOD mouse and in human IDD. The response of IDD in both animal models and in man to immunomodulation and to immunosuppression offers further evidence of an immunologically mediated disease. However, some therapies in the animal models, not typically considered immunologic, such as protein restriction and insulin therapy, have prevented IDD. The possibility of intervening prior to the onset of clinical disease at the level either of the initial process of recognition of the pancreatic beta cell as a target organ or of the effector mechanism is approaching a reality in human IDD.
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PMID:Insulin dependent diabetes mellitus, an autoimmune disorder? 267 79

Within the last 7 years, HLA and disease studies have made it clear that most of the diseases previously known to be HLA-A- or B-associated do in fact show stronger associations with HLA-D/DR antigens. This observation strengthens the assumption that Ir and/or Is determinants are responsible for these associations in agreement with the fact that many of these diseases are characterized by autoimmune phenomena. However, some diseases, ankylosing spondylitis in particular, still show stronger associations with HLA-ABC than with DR antigens. Among the conditions which have been shown to be HLA-associated more recently, four deserves special mention: (i) maternal immunization against the Zwa antigen because this is a good candidate for an antigen-specific Ir gene action; (ii) IgA deficiency in blood donors because this is a non-antigen-specific immunodeficiency; (iii) idiopathic hemochromatosis and (iv) congenital adrenal hyperplasia due to 21-OH deficiency because immune mechanisms are unlikely to be involved. HLA studies and new genetic methodology have significantly advanced our knowledge about the inheritance of some diseases. Thus, HLA-B27 or a B27-associated HLA factor confers a dominant susceptibility to ankylosing spondylitis. HLA plays a definite and strong role in the susceptibility to IDDM, but simple genetic models (dominant, recessive, and intermediate) have been made unlikely on the basis of HLA results; the hypothesis that there are two different susceptibility genes within the HLA system still remains viable, but the demonstration of clinical heterogeneity and/or (better) of different pathogenetic pathways for DR3- and DR4-associated IDDM is required to substantiate it.
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PMID:HLA and disease 1982--a survey. 633 68

Interleukin-1 beta (IL-1 beta) is a polypeptide produced by a variety of cells of hematological, dermal and neural origin. We have investigated the effect of type I diabetes mellitus and insulin treatment on tissue levels of IL-1 beta using streptozotocin (STZ)-treated mouse as an animal model. Diabetes affected IL-1 beta in a tissue specific manner. For example, IL-1 beta levels (as measured by ELISA) were markedly decreased in the liver and spleen of the STZ diabetic mice. In contrast, the levels of this cytokine remained unalatered in other tissues including kidney, testis, hippocampus and pituitary. Insulin treatment restored the diabetes-related decreases in liver and spleen IL-1 beta levels. Overall, the present data suggest that the abnormalities in hepatic and splenic IL-1 beta levels may contribute, at least in part, to the immunodeficiency and increased susceptibility to infection in diabetes mellitus.
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PMID:Insulin-dependent reduction in hepatic and splenic contents of interleukin-1 beta in experimental diabetes. 759 Jun 11

Thymogen effect was assessed in patients with type 1 diabetes mellitus with clinical and laboratory evidence of secondary immunodeficiency. It was found that thymogen removes signs of secondary immunodeficiency due to activation of T-lymphocyte differentiation. Clinical effect of thymogen was registered in 94.4%, laboratory effect in 83.3% of patients. The scheme of thymogen administration is suggested.
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PMID:[Thymogen in the treatment of type-1 diabetes mellitus]. 902 34

A patient with a history of recurrent cutaneous and pulmonary infections, nephrotic syndrome, and an established diagnosis of type 1 diabetes was found to have unsuspected and unrecognised primary immunodeficiency. On review of the case, previous investigations pointed to the correct diagnosis over 10 years earlier. This combination of diagnoses has not previously been reported. The patient is now well on replacement intravenous immunoglobulin therapy, urinary loss of IgG having been specifically excluded before treatment. This case highlights how antibody deficiency can easily be missed despite an obvious infection history unless results are interpreted carefully and in context.
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PMID:Type 1 diabetes mellitus masking primary antibody deficiency. 1082 47

Qualitative and/or quantitative alterations in the expression of the MHC class II molecules affect the onset and maintenance of the immune response and may be the basis of a wide variety of disease states, such as autoimmunity and immunodeficiency.CIITA is a major physiological regulator of the expression of MHC class II genes. The availability of CIITA ap- pears generally essential for MHC class II gene expression, and hence its own transcriptional regulatory mechanisms result of fundamental importance for a correct homeostasis of the immune response. Therefore, it is possible to hypothesize that variability at the CIITA-encoding locus, AIR-1, could constitute an additional source of susceptible traits to autoimmune diseases. Mutations at AIR-1/CIITA promoters could modulate expression of CIITA. Variations in CIITA expression could influence the qualitative and quantitative expression of MHC class II molecules at cell surface. We have analyzed sequence variation at AIR-1/CIITA promoters by PCR-SSCP in 23 IDDM and 30 RA patients compared to a sample of 19 unaffected normal controls and 16 unaffected IDDM family members, for a total of 88 Caucasian subjects from the Northeast of Italy. No sequence difference was found at the four AIR-1/CIITA promoters between autoimmune patients and normal controls. Moreover, the promoters resulted invariant within the entire group of 88 subjects analyzed, comprising patients and controls. This finding suggests a possible selective advantage in maintaining CIITA upstream regulatory sequences invariant.
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PMID:Analysis of CIITA encoding AIR-1 gene promoters in insulin-dependent diabetes mellitus and rheumatoid arthritis patients from the northeast of Italy: absence of sequence variability. 1082 88

Although it is well known that patients with type 1 diabetes mellitus are susceptible to other autoimmune diseases, the simultaneous occurrence of clustered distinct autoimmune diseases is uncommon. We report a 16-year-old girl, previously diagnosed as having coeliac disease and IgA deficiency, who at 13 years of age developed a clustering of distinct autoimmune diseases, including type 1 diabetes mellitus, rheumatoid arthritis (RA) and euthyroid autoimmune thyroiditis, eventually resulting in a simultaneous long-term remission. The clinical picture was associated with a functional immunodeficiency characterized by a defect in proliferative responses to T cell predominant mitogens and a normal response to the B cell predominant mitogen. In addition, the T cell activation markers HLA-DR, IL-2 receptor and transferrin receptor) were not upregulated. The clinical course of this immunodeficiency paralleled the outcome of the autoimmune diseases. After the abrupt onset, spontaneous clinical remission of both diabetes mellitus and RA was observed. Insulin was first reduced in dose and then discontinued completely at 15 months, in the presence of normal C peptide secretion and normal metabolic control (HbA1c 5.8%). Anti-glutamate decarboxylase (GAD65) and anti-IA-2 antibodies remained persistently high. During the remission phase a normalization of the functional immune defect was observed. The gradual resolution of the multisystemic diseases as well as the normalization of immune function in our patient is unusual. This case may be of considerable value in furthering our knowledge of the immunological mechanisms implicated in these rare multireactive syndromes.
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PMID:Simultaneous peripubertal onset of multireactive autoimmune diseases with an unusual long-lasting remission of type 1 diabetes mellitus. 1110 28

A six year-old boy with common variable immunodeficiency developed insulin dependent diabetes mellitus, autoimmune thyroiditis, and total alopecia leading to the diagnosis of autoimmune polyglandular syndrome type 2. Previously unreported co-occurence of these two entities may be explained by strong autoimmunity and HLA association of both conditions.
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PMID:Coexistence of common variable immunodeficiency and autoimmune polyglandular syndrome type 2. 1139 80


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