3a). T cell autoreactivity was accompanied by production of IFN-γ (GAD65) or IL-10 (IA-2) or both (insulin B9-23), possibly reflecting pathogenic as well as regulatory immune autoreactivity to islets [6]. The insulin A-chain (aa1-14) epitope, claimed recently to be recognized dominantly by T cells from pancreas-draining

lymph nodes of long-standing type 1 diabetes patients, was not yet known at the time of the patient’s death [10], and was therefore not tested. It is conceivable that pancreas-draining lymph nodes contain islet immune components that bear relevance to insulitis and islet destruction. Preliminary evidence of oligoclonality and reactivity to insulin peptide in two cases of long-standing type 1 diabetes exists [10]. The T cell response to insulin in that study was detected by IL-13 production in response to high doses Palbociclib in vivo Metformin price (in the millimolar

range) of insulin peptide, but not to whole insulin or proinsulin. In view of the lack of remaining β cells or insulitis in the latter donors, it remains unresolved whether the immune reactivity to insulin described is relevant to the disease onset. Given the clinical heterogeneity of type 1 diabetes, other candidate antigens such as GAD65, IA-2 or as yet unidentified β cell proteins should still be considered [16]. Our first case expressed an HLA genotype that does not particularly predispose to development of type 1 diabetes [20]. Diagnosis of this disease was, however, corroborated by the detection of autoantibodies against Pyruvate dehydrogenase lipoamide kinase isozyme 1 GAD65 [21]. However, this patient presented unexpectedly with enteroviral infection of pancreatic β cells that may contribute to loss of immunological tolerance

and impaired β cell function [17]. Despite the presence of intact β cells and insulitis in our patient, it is not yet possible to determine the degree of representation of this case in defining immune responses that are associated with the onset of inflammatory lesions in the islets of genetically predisposed patients. Furthermore, studies were performed at a time that the patient’s blood glucose could be regulated by modest doses of exogenous insulin, implying that our patient was either in remission (‘honeymoon’) at the time of his accidental death, or suffering from a syndrome referred to as latent autoimmune diabetes in adults (LADA) [22]. There is no reason to believe that the pathology of LADA differs from type 1 diabetes in terms of disease mechanism and manifestation [23]. In fact, the low insulin requirement and good metabolic control were accompanied by islet autoreactivity composed of pro- as well as anti-inflammatory immune responses. We propose that the immune response described could bear relevance to disease regulation [6] similar to the pre-onset (peri-insulitis) stage in NOD mice.