Mature high-affinity immune responses to (pro)insulin anticipate the autoimmune cascade that leads to type 1 diabetes
Peter Achenbach, Kerstin Koczwara, Annette Knopff, Heike Naserke, Anette-G. Ziegler, Ezio Bonifacio
Peter Achenbach, Kerstin Koczwara, Annette Knopff, Heike Naserke, Anette-G. Ziegler, Ezio Bonifacio
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Article Metabolism

Mature high-affinity immune responses to (pro)insulin anticipate the autoimmune cascade that leads to type 1 diabetes

Abstract

Children at risk for type 1 diabetes can develop early insulin autoantibodies (IAAs). Many, but not all, of these children subsequently develop multiple islet autoantibodies and diabetes. To determine whether disease progression is reflected by autoantibody maturity, IAA affinity was measured by competitive radiobinding assay in first and subsequent IAA-positive samples from children followed from birth in the BABYDIAB cohort. IAA affinity in first positive samples ranged from less than 106 l/mol to more than 1011 l/mol. High affinity was associated with HLA DRB1*04, young age of IAA appearance, and subsequent progression to multiple islet autoantibodies or type 1 diabetes. IAA affinity in multiple antibody–positive children was on average 100-fold higher than in children who remained single IAA positive or became autoantibody negative. All high-affinity IAAs required conservation of human insulin A chain residues 8–13 and were reactive with proinsulin. In contrast, most lower-affinity IAAs were dependent on COOH-terminal B chain residues and did not bind proinsulin. These data are consistent with the concept that type 1 diabetes is associated with sustained early exposure to (pro)insulin in the context of HLA DR4 and show that high-affinity proinsulin-reactive IAAs identify children with the highest diabetes risk.

Authors

Peter Achenbach, Kerstin Koczwara, Annette Knopff, Heike Naserke, Anette-G. Ziegler, Ezio Bonifacio

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Relationship between IAA affinity, multiple autoantibodies, and diabetes...
Relationship between IAA affinity, multiple autoantibodies, and diabetes. (A) IAA affinity (l/mol) in the first IAA-positive sample from 56 children in the BABYDIAB study, in 16 IAA-positive relatives from the Munich family study, and in 11 insulin-treated patients with T1DM. Subjects in the BABYDIAB and Munich family studies are classified as having developed GAD antibodies, IA-2 antibodies, or cytoplasmic islet cell autoantibodies (multiple Ab’s) or not having developed these antibodies (IAAs only). (B) Relationship between IAA affinity (ordinate scale) and IAA titer (abscissa) for the 72 BABYDIAB and Munich family study sera. In A and B, subjects are identified as having developed multiple islet autoantibodies (circles), not having developed multiple islet autoantibodies (crosses), or having transient IAAs (triangles), and as having developed diabetes (filled symbols) or not (open symbols).