1. Coxsackievirus B Vaccines Prevent Infection-Accelerated Diabetes in NOD Mice and Have No Disease-Inducing Effect
- Author
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Malin Flodström-Tullberg, Heikki Hyöty, Vesa P Hytönen, Amir-Babak Sioofy-Khojine, Minna M Hankaniemi, Marta Butrym, Virginia M Stone, Tampere University, BioMediTech, Department of Clinical Chemistry, and Department of Clinical Microbiology
- Subjects
Vaccination ,Coxsackievirus Infections ,Viral Vaccines ,Antibodies, Neutralizing ,Enterovirus B, Human ,Disease Models, Animal ,Mice ,Diabetes Mellitus, Type 1 ,Mice, Inbred NOD ,Disease Progression ,Animals ,Female ,3111 Biomedicine ,Immunology and Transplantation - Abstract
Enteroviruses, including the Coxsackievirus Bs (CVB), have been implicated as causal agents in human type 1 diabetes. Immunization of at-risk individuals with a CVB vaccine provides an attractive strategy for elucidating the role of CVBs in the disease etiology. Previously, we have shown that an inactivated whole-virus vaccine covering all CVB serotypes (CVB1-6) is safe to administer and highly immunogenic in preclinical models, including nonhuman primates. Before initiating clinical trials with this type of vaccine, it was also important to address 1) whether the vaccine itself induces adverse immune reactions, including accelerating diabetes onset in a diabetes-prone host, and 2) whether the vaccine can prevent CVB-induced diabetes in a well-established disease model. Here, we present results from studies in which female NOD mice were left untreated, mock-vaccinated, or vaccinated with CVB1-6 vaccine and monitored for insulitis occurrence or diabetes development. We demonstrate that vaccination induces virus-neutralizing antibodies without altering insulitis scores or the onset of diabetes. We also show that NOD mice vaccinated with a CVB1 vaccine are protected from CVB-induced accelerated disease onset. Taken together, these studies show that CVB vaccines do not alter islet inflammation or accelerate disease progression in an animal model that spontaneously develops autoimmune type 1 diabetes. However, they can prevent CVB-mediated disease progression in the same model. acceptedVersion
- Published
- 2021