DOI: 10.3390/endocrines7030031 ISSN: 2673-396X

Zinc Transporter 8 Autoantibodies in Type 1 Diabetes and Related Diseases: Recent Advancements Towards Future Perspectives

Roberta Misiti, Ludovica Ganino, Francesco Dragone, Maria Mirabelli, Omar Tripolino, Daniela P. Foti, Marta Greco

Type 1 diabetes (T1D) is an autoimmune disease characterized by β-cell destruction as a common trait, in which variability in age at onset, progression rate, and clinical presentation shape heterogeneous phenotypes. Disentangling this heterogeneity is pivotal for a better understanding of clinical risk, evolution and a precision medicine approach to the disease. In this context, circulating islet autoantibodies, including the last discovered Zinc Transporter 8 autoantibodies (ZnT8A), represent crucial tools. This narrative review provides an overview of the current knowledge on ZnT8A in autoimmune diabetes from its structural and pathogenetic basis to its clinical relevance and therapeutic perspectives. A literature search was conducted in PubMed, Scopus, Google Scholar, and ResearchGate up to March 2026, that included preclinical, pediatric, adult, and assay-comparison studies. While the identification of ZnT8-targeted antigenic determinants is still ongoing, we discuss the pathogenic role of a newly identified specific class of antibodies directed against extracellular ZnT8 epitopes (ZnT8ecA). According to this finding, ZnT8ecA could facilitate the identification of an early phase of islet injury process, holding promise to provide a framework for new therapeutic strategies based on masking or modulating surface-exposed ZnT8 epitopes and interfering with the early stages of the disease. Moving from the role of ZnT8A in various clinical settings, we also focus on recent advancements in detection technologies, whose implementation accounts for invaluable contributions to diagnosis, disease risk, and, contextually, to a better understanding of autoimmune diabetes. Finally, we provide future perspectives, in T1D and T1-related diseases, for the potential clinical application of ZnT8A in early diagnosis, risk stratification and profiling, as well as in the development of targeted therapies as part of precision medicine.

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