In type 1 diabetes, GAD65 antibodies are initially generated against the middle and C-terminal regions of GAD65. In genetically predisposed subjects the autoimmune response may then undergo intramolecular epitope spreading towards epitopes on the N-terminus and further epitopes located in the middle. These findings clearly demonstrate that the GAD65 autoantibody response in the preclinical stage of type 1 diabetes is dynamic and related to the HLA genotypes that confer risk of diabetes. GAD65-specific Fab should prove useful in predicting progression from islet autoimmunity to clinical onset of type 1 diabetes.
Aims/hypothesis: Insulin autoantibodies (IAA) precede and predict the onset of type 1 diabetes, but not all children with IAA develop the disease. In affected families, IAA affinity can identify IAA-positive children who are more likely to progress to diabetes. The purpose of this study was to determine whether affinity is a useful marker to stratify type 1 diabetes risk in IAA-positive children from the general population. Methods: IAA affinity was determined by competitive binding to 125 Iinsulin with increasing concentrations of cold insulin and with cold proinsulin in sera from 46 IAA-positive children identified in the Karlsburg Type 1 Diabetes Risk Study of a Normal Schoolchild Population in north-eastern Germany. Results: IAA affinity ranged between 5×10 6 and 1.2×10 11 l/mol. IAA affinity was higher in 24 children who developed multiple islet autoantibodies or diabetes (median 3.5×10 9 l/mol; interquartile range [IQR] 2.1×10 9 to 2.1×10 10 l/mol) than in 22 children who did not develop multiple islet autoantibodies or diabetes (median 1.3×10 8 l/mol; IQR 3.8×10 7 to 7.2×10 8 l/mol; p<0.0001). Using a threshold of ≥10 9 l/mol, 22 of the 24 children who developed multiple islet autoantibodies or diabetes were correctly identified by high-affinity IAA and 18 of 22 who did not develop multiple islet autoantibodies or diabetes were correctly identified by low-affinity IAA. IAA affinity was significantly higher in samples with proinsulin reactive IAA (p<0.0001). Conclusions/interpretation: IAA affinity measurement provides robust identification of IAA associated with high diabetes risk.
This study attempts to assess the prevalence of diabetes-associated autoantibodies in a general population in the northeastern part of Germany, with emphasis on autoantibodies against glutamic acid decarboxylase (GADA), protein tyrosine phosphatase (IA-2A), and insulin (IAA) by radioassays >/= 98th percentile, and AAbs binding on pancreatic sections (ICA) by immunofluorescence >/= 10 Juvenile Diabetes Foundation units. From a total of 11,840 schoolchildren tested for all four AAbs, 821 (6.9%) children were positive for single AAbs, whereas 83 (0.7%) had multiple AAbs. If the primary screening were performed by testing GADA/IA-2A/IAA, 94% of probands with single AAbs and all with multiple AAbs would be identified. The combinations of GADA/IA-2A, GADA/IAA, and IA-2A/IAA would identify 97.6, 98.8, and 85.5% of probands with multiple AAbs, respectively. Thus, combined AAb screening in the general population identifies those probands at risk for diabetes.
The intent of this study was to analyze the prevalence of diabetes-associated autoantibodies (AAbs) at or above the 99(th) percentile as well as their association with human leukocyte antigen (HLA)-DQB1 alleles in a normal population of 6,337 schoolchildren. AAbs against glutamic acid decarboxylase (GADA), tyrosine phosphatase IA-2 (IA-2A), and/or insulin (IAA) were detected by (125)I-antigen binding and islet cell antibodies (ICA) immunohistochemically in 181 (2.86%) schoolchildren. HLA-DQB1 alleles were analyzed in 178/181 children and subsequently compared with 119 controls. 2.37% (150/6,337) possessed only one AAb, whereas 0.49% (31/6,337) had multiple AAbs but at increased levels (P < 0.001). Subjects with GADA, IA-2A, or IAA revealed an increased frequency of the diabetes-associated HLA-DQB1 alleles *0302 and/or *02 (P = 0.001-0.006) as well as a decreased frequency in the protective allele *0602 (P < 0.001-0.022). DQB1*0602 was completely absent within children with multiple AAbs or with GADA, IA2-A, or IAA at or above the 99.9(th) percentile. In comparison to children with single AAbs, the frequency of associated/protective alleles of children with multiple AAbs was enhanced/diminished (P = 0.004-0.009). The study shows that also in the general population the multiple AAbs or high level single AAbs predict rather certainly a HLA-DQB1-mediated diabetes susceptibility as shown for first degree relatives of type 1 diabetic patients.
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