Enteroviruses (EVs) have long been implicated in the development of islet autoimmunity (IA) and type 1 diabetes. However, given the ubiquity of EV infections in children, disease susceptibility is likely driven by host-specific immune responses rather than viral exposure alone. To investigate the host antibody response to EVs, we used virome-wide serological profiling (VirScan) to compare the EV antigen landscapes in IA-positive case children versus IA-negative control children across two independent pediatric cohorts separated by 12 years, using samples collected at the time point of seroconversion. We identified a reproducible and distinct EV-specific antibody signature in IA-positive case samples, with an enriched immunogenic hotspot localized within a highly conserved region in the 3D RNA-dependent RNA polymerase. Additionally, IA-positive male children exhibited significantly heightened antibody responses against a motif in the VP1 capsid protein compared with IA-negative male children (risk ratio 1.24; 95% CI 1.02, 1.52; P = 0.03). Our findings provide paradigm-shifting evidence that differential antiviral humoral responses, rather than the specific types of EV infection, play a central role in IA development, highlighting the need for an updated framework to study host-virus interactions in autoimmune pathogenesis.
- Children positive for islet autoimmunity (IA) in two different Australian cohorts showed a distinct enterovirus (EV) antibody signature against specific regions of the EV genome polyprotein.
- A specific motif in the 3D region of the EV polyprotein was consistently enriched across cohorts and sexes, making it a potential marker for IA onset.
- Anti-VP1 motif antibody levels varied by sex, with significantly elevated levels in male children linked to early IA onset, highlighting possible sex-specific antiviral immunity.
- Findings support that host immune responses against EVs drive IA development, calling for a new framework to study host-virus interactions in IA.
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