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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 highest risk for the development of type I diabetes resides with first-degree relatives of the diabetic proband, this risk being in the order of 2.9%, 6.6% and 4.9% for parents, siblings and children of the proband, respectively. The major genetic markers associated with the development of insulin-dependent diabetes mellitus (IDDM) is the possession of the HLA alleles DR3/DR4 and more recently the absence of aspartate in the 57th position on the beta-chain of the HLA DQ gene (HLA DQ beta Asp 57 negative). The most important auto-immune marker for predicting preclinical IDDM is the presence of high titres (greater than 40
Juvenile Diabetes
Foundation units) of islet cell antibodies (ICA), while the finding of insulin auto-antibodies (IAA) is a good predictive marker in children less than 5 years of age. The presence in a susceptible individual of ICA plus IAA is a better predictor of impending IDDM than the presence of either of these two markers alone. Antibodies which precipitate an islet
membrane protein
(MW 64K) are highly sensitive and specific markers of preclinical IDDM. The presence of 64K antibodies may well be the most important predictive marker of impending IDDM in the future. The progressive decline of the first phase of insulin secretion in response to an intravenous glucose challenge is associated with the onset of IDDM within 18 months. Of the immunotherapeutic agents at present used in clinically manifest IDDM, azathioprine has been shown to be ineffective in increasing the remission phase, while the value of nicotinamide is controversial.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Can we predict and/or prevent type I diabetes? 221 82
Antibodies in serums from newly diagnosed insulin-dependent (type I) diabetes mellitus (
IDDM
) patients and individuals experiencing early phases of beta-cell destruction specifically immunoprecipitate a minor pancreatic islet cell
membrane protein
of 64,000 Mr (64K). In this report, we demonstrate the use of two-dimensional (2-D) gel electrophoresis to unambiguously identify the 64K antigen. By nonequilibrium pH-gradient gel electrophoresis in the first dimension and sodium dodecyl sulphate-polyacrylamide gel electrophoresis in the second dimension, the 64K protein separates into two components, designated alpha and beta, that differ in size but display identical charge heterogeneity. The high resolution of the 2-D method efficiently separates the 64K components from background proteins in immunoprecipitates from crude detergent lysates of islets. The background proteins were identified as major cellular proteins carried nonspecifically through the immunoprecipitation procedure. The high affinity and specificity of the 64K autoantibodies were demonstrated by the exclusive and greater than 1000-fold purification of this minor protein by immunoprecipitation with
IDDM
serums. The 2-D analyses did not reveal additional proteins specifically immunoprecipitated by
IDDM
serums, suggesting that the 64K protein is the only protein antigen specifically and consistently recognized by
IDDM
autoantibodies in the relatively stringent conditions of immunoprecipitation. Moreover, the 2-D analyses demonstrate that purification of
membrane protein
fractions from both human and rat islets before the immunoprecipitation efficiently removes background proteins and substantially increases the specificity of 64K autoantibody measurements by traditional methods.
...
PMID:Revelation of specificity of 64K autoantibodies in IDDM serums by high-resolution 2-D gel electrophoresis. Unambiguous identification of 64K target antigen. 267 Jun 43
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
.
...
PMID:Insulin dependent diabetes mellitus, an autoimmune disorder? 267 79
The majority of patients with insulin-dependent diabetes (
IDDM
) have Abs to 40- and/or 37-kDa tryptic fragments (37/40K-Abs) deriving from an unidentified islet cell
membrane protein
distinct from glutamate decarboxylase (GAD). Recently, autoantibodies against ICA512, which has identity with the protein tyrosine phosphatase-like protein IA2, were reported. In this study we have examined whether IA2/ICA512 is the Ag specificity of 37/40K-Abs, and one of the determinants of islet cell Abs (ICA) detected by immunofluorescence. Serum from 51 of 100 new onset
IDDM
patients immunoprecipitated 40- and/or 37-kDa insulinoma polypeptides, and 53 immunoprecipitated in vitro translated rIA2; 49 had both 37/40K-Abs and rIA2 Abs. There were strong correlations between the levels of Abs to rIA2 and both 40 kDa (r = 0.85, p < 0.0001) and 37 kDa (r = 0.70, p < 0.0001) insulinoma polypeptides. Trypsin treatment of immunoprecipitated rIA2 yielded 40- and 37-kDa fragments, and preincubation of sera with rIA2 completely inhibited binding to the insulinoma 40- and 37-kDa polypeptides. IA2 Ab levels also correlated with ICA titer in GAD-Ab negative sera, and preincubation with rIA2 reduced ICA staining intensity in sera with ICA and IA2 Abs, but not in sera with ICA in the absence of IA2 Abs. These results provide clear evidence for the identification of IA2/ICA512 as the precursor of the islet 40- and 37-kDa polypeptide autoantigens and as one of the ICA specificities. Combined detection of Abs to IA2 and GAD65 in a single radio-binding assay identified Abs in 88 of 100
IDDM
patients, and potentially facilitates population screening for
IDDM
risk assessment.
...
PMID:Identification of protein tyrosine phosphatase-like IA2 (islet cell antigen 512) as the insulin-dependent diabetes-related 37/40K autoantigen and a target of islet-cell antibodies. 759 59
Intrathymic (i.t.) injection of islet cells or whole islets retards development of
insulin dependent diabetes mellitus
(
IDDM
) in spontaneous animal models of the disease. Protection of 4-week-old prediabetic NOD/Lt female mice from subsequent
IDDM
development was specific for the it route of administration since intraperitoneal injection of an equal number of syngeneic islets failed to retard
IDDM
. The protective effect of i.t. injection of islet cells was compared with the effect of i.t. injection of syngeneic peritoneal exudate cells, NIT-1 cells, bovine serum albumin (BSA), ABBOS peptide, a 52 kDa islet cell
membrane protein
, various synthetic peptides from human glutamic acid decarboxylase (GAD) and a Coxsackievirus B4-derived peptide with homology to GAD. Interestingly, only a GAD-derived peptide containing sequence homology to Coxsackie-virus B4, and the corresponding Coxsackievirus B4-derived peptide, delayed
IDDM
onset. To establish the immunological mechanism underlying the reduced
IDDM
incidence following i.t. injection of islet cells, adoptive transfer of splenic leukocytes into NOD-scid/scid mice was performed. Splenic leukocytes from i.t.-injected non-diabetic females transferred
IDDM
into NOD-scid/scid recipients, but more slowly than splenocytes from unmanipulated, diabetic (control) donors. Co-transfer of 1:1 mixtures of splenic leukocytes from it islet-injected (and diabetes-free) NOD/Lt females and from untreated NOD/Lt diabetic donors produced
IDDM
as rapidly as splenocytes from diabetic donors injected alone. Hence, any peripheral suppression generated in i.t.-protected females was not sufficiently strong to prevent
IDDM
transfer by committed T-effector cells from the diabetic donors.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:The thymus as a site for evaluating the potency of candidate beta cell autoantigens in NOD mice. 788 41
We investigated the significance of adenosine triphosphate (ATP) release from diabetic subjects' red blood cells (RBCs) following osmotic shock (OS) and its possible relationship with hemoglobin A1C (HbA1C) and with the RBC
membrane protein
skeleton. RBCs from type I (insulin-dependent [
IDDM
]) and type II (non-insulin-dependent [NIDDM]) diabetic subjects and age- and sex-matched control subjects were submitted to OS using NaCl solutions (from 0.9% to 0.045% final concentration). ATP release values were determined by the bioluminescent method. For pattern study, they were expressed both as absolute values and as percentages (%) of ATP maximum release (at 0.045% NaCl solution). Twenty-seven
IDDM
and 25 NIDDM subjects and two control groups were investigated. ATP content in RBCs was 2.08 +/- 0.19 pmol/10(4) RBC in
IDDM
and 1.23 +/- 0.20 pmol/10(4) RBC in NIDDM subjects. The ATP content of
IDDM
subjects' RBCs was significantly higher than that of the corresponding control group. ATP release at 0.49% NaCI OS, both as absolute value and as percentage value, was significantly lower in both diabetic groups, and ATP% was inversely correlated with HbA1" (
IDDM
: r = -.489, P < .01; NIDDM: r = -.654, P < .01), suggesting a possible relationship between Hb glycation, RBC
membrane protein
skeleton glycation, and its influence on ATP release by OS. In conclusion, the proposed method seems useful for measuring RBC ATP content and, at the same time, for monitoring the leak effect of the RBC membrane before it bursts.
...
PMID:Adenosine triphosphate release by osmotic shock and hemoglobin A1C in diabetic subjects' erythrocytes. 815 99
Type 1 diabetes is a major histocompatibility complex (MHC) class II-associated autoimmune disease mediated by beta-cell-specific T-cells and characterized by circulating autoantibodies to beta-cell molecules. In the BB/Wor diabetes-prone (DP) rat,
type 1 diabetes
develops spontaneously with an incidence of >90%. BB diabetes can be adoptively transferred to naive syngeneic or MHC class II-compatible rats with islet cell-activated T-cell lines derived from diabetic BB/Wor rats. However, the target beta-cell autoantigen(s) in BB diabetes has not yet been defined. BB rat T-cell lines activated in vitro with antigen-presenting cells (APC) and BB islet cell crude membranes (CM), but not islet cell cytosol, adoptively transfer diabetes into young DP recipients. To determine if the target autoantigen is an integral or peripheral
membrane protein
, islet cell CM were treated with 0.5 mol/l KCl or 0.2 mol/l Na2CO3 (pH 11). Both treatments selectively extract peripheral proteins from the cell membrane without affecting the disposition of integral (transmembrane) proteins. T-cell lines activated in vitro with APC and 0.5 mol/l KCl, or pH 11 (0.2 mol/l Na2CO3)-treated islet cell CM, transferred diabetes into young DP rats. Conversely, T-cell lines activated in vitro with APC and the supernatant of 0.5 mol/l KCl-treated CM (containing extracted peripheral proteins), did not adoptively transfer diabetes. After activation in vitro with islet cell membrane antigens, the diabetes-inducing cell lines were comprised of both CD4+ CD8- T-cells and 10-30% B-cells. We conclude that a major CD4+ T-cell target autoantigen in BB diabetes is a membrane-associated beta-cell molecule with the characteristics of an integral beta-cell
membrane protein
. The identification of this MHC class II-restricted beta-cell target molecule will allow the design of antigen-specific intervention protocols to prevent the onset of
type 1 diabetes
in genetically susceptible individuals.
...
PMID:Islet cell membrane antigens activate diabetogenic CD4+ T-cells in the BB/Wor rat. 1033
Fas ligand (FasL), a type 2
membrane protein
belonging to the TNF family, plays an important role in the induction of cell death. Ligation of Fas receptors by FasL results in apoptosis of the Fas-expressing cell. Autoimmune diabetes results from beta cell destruction by islet-reactive T cells, a process that involves beta cell apoptosis. This raises the question of whether the FasL-Fas pathway plays a major role in beta cell death. To address this issue it is important to know whether beta cells express Fas and/or FasL and, if so, whether induction of these molecules leads to beta cell death. In fact, both Fas and FasL have been demonstrated to be expressed by beta cells in response to cytokine stimulation, although there remains an argument in the literature as to whether beta cells truly express FasL. This is largely because FasL expression has only been demonstrable by immunohistochemistry and not by flow cytometry. Transgenic NOD mice with beta cells expressing a FasL transgene develop an accelerated form of diabetes. We show here that beta cells from FasL transgenic NOD mice are more susceptible to cytokine-induced apoptosis than wild-type beta cells, consistent with the hypothesis that if beta cells express FasL then Fas-FasL interaction on the beta cell surface is able to mediate beta cell self-death in the absence of T cells. Interventions that block the Fas-FasL pathway may be useful, therefore, in the prevention or treatment of
type 1 diabetes
.
...
PMID:The role of Fas ligand in beta cell destruction in autoimmune diabetes of NOD mice. 1202 Nov 7
Thickening of basement membrane in capillaries and small vessels is a well-known finding and important in the progression of diabetic microangiopathy. To monitor the metabolism of the basement
membrane protein
collagen type IV (CIV) in diabetes mellitus, serum levels of IgG, IgM and IgA to CIV were measured using an ELISA method in 28 children with
Type 1 diabetes mellitus
over a period of 6 years. These values were compared to serum antibodies to CIV in 24 age- and sex-matched controls. At the end of the study, 11 children had diabetic microangiopathy. IgG to CIV was associated with age (r = .33, P = .026), diabetes duration (r = .32, P = .021), HbA1c (r = .31, P = .019), microalbuminuria (r = .32, P = .022) and anti-AGE antibodies (r = .47, P = .0007). IgM to CIV correlated with age (r = .46, P = .001), diabetes duration (r = .45, P = .001), HbA1c (r = .26, P = .038) and anti-AGE antibodies (r = .26, P = .038) and IgA to CIV with triglycerides (r = .29, P = .038) and anti-AGE antibodies (r = .44, P = .0025). We suggest that serum levels of IgG to CIV can be used as a marker for the development of diabetic microalbuminuria.
...
PMID:Serum antibodies to collagen type IV and development of diabetic vascular complications in children with type 1 (insulin-dependent) diabetes mellitus. A longitudinal study. 1240 12
The basement membrane is a major focus of scientific interest because of its role in a variety of diseases. In diabetes mellitus, a thickening of the capillary basement membrane results in microangiopathic lesions. To monitor the metabolism of the basement
membrane protein
collagen type IV (CIV) in diabetes mellitus, serum levels of CIV were measured using an enzyme-linked immunosorbent assay (ELISA) method in 28 children with
type 1 diabetes
mellitus over a period of 6 years. These values were compared to serum CIV levels in 24 age and sex matched controls. In the first 3 years, serum CIV levels were normal. In the 4th year, 1 patient and in years 5 and 6, 4 patients had increased CIV serum levels. At the end of the investigation, 3 children had developed retinopathy, 6 microalbuminuria, and 2 both microalbuminuria and retinopathy. Only those patients with microalbuminuria had increased CIV serum levels. In conclusion, we suggest that CIV serum levels can be used as a marker for the development of diabetic microalbuminuria.
...
PMID:Detection of serum collagen type IV in children with type 1 (insulin-dependent) diabetes mellitus--a longitudinal study. 1501 85
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