Autoimmune diseases are broadly characterized as a failure in immune tolerance. In multiple sclerosis (MS), autoreactive immune cells attack the protective myelin sheath lining neurons in the central nervous system. Therapeutic strategies that selectively and durably restore immune tolerance without broad immunosuppression are urgently needed for MS. Our lab has developed assemblies of immune constructs built entirely from myelin antigen (MOG or PLP) and regulatory innate immune cues (GpG) using layer-by-layer self-assembly. Here, we present mechanistic and translational data showing these assemblies confer therapeutic benefits in a range of clinically relevant disease contexts, including progressive disease in male mice and in relapsing-remitting disease that mimics the intermittent bouts of disease and remission most MS patients initially experience. Here, the antigen component in the complexes is matched to the disease-causing antigen, resulting in a decrease in paralysis in these models. We show that subcutaneous delivery of assemblies durably prevents diseases and drives tolerance by regulatory remodeling of the draining lymph node. Importantly, we show that subcutaneously delivered assemblies recruit and expand antigen-specific regulatory T cells (T) in draining lymph nodes. Finally, we find a shift of these recruited T from a resting to an activated phenotype. Taken together, these data inform the design of therapeutics for antigen-specific tolerance that could combat autoimmunity by exploiting the role of innate pathways in a disease.
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| http://dx.doi.org/10.1021/acsnano.4c06667 | DOI Listing |
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