Rapamycin nanoparticles increase the therapeutic window of engineered interleukin-2 and drive expansion of antigen-specific regulatory T cells for protection against autoimmune disease
- PMID: 37844543
- DOI: 10.1016/j.jaut.2023.103125
Rapamycin nanoparticles increase the therapeutic window of engineered interleukin-2 and drive expansion of antigen-specific regulatory T cells for protection against autoimmune disease
Abstract
Interleukin-2 (IL-2) therapies targeting the high affinity IL-2 receptor expressed on regulatory T cells (Tregs) have shown promising therapeutic benefit in autoimmune diseases through nonselective expansion of pre-existing Treg populations, but are potentially limited by the inability to induce antigen-specific Tregs, as well as by dose-limiting activation of effector immune cells in settings of inflammation. We recently developed biodegradable nanoparticles encapsulating rapamycin, called ImmTOR, which induce selective immune tolerance to co-administered antigens but do not increase total Treg numbers. Here we demonstrate that the combination of ImmTOR and an engineered Treg-selective IL-2 variant (termed IL-2 mutein) increases the number and durability of total Tregs, as well as inducing a profound synergistic increase in antigen-specific Tregs when combined with a target antigen. We demonstrate that the combination of ImmTOR and an IL-2 mutein leads to durable inhibition of antibody responses to co-administered AAV gene therapy capsid, even at sub-optimal doses of ImmTOR, and provides protection in autoimmune models of type 1 diabetes and primary biliary cholangitis. Importantly, ImmTOR also increases the therapeutic window of engineered IL-2 molecules by mitigating effector immune cell expansion and preventing exacerbation of disease in a model of graft-versus-host-disease. At the same time, IL-2 mutein shows potential for dose-sparing of ImmTOR. Overall, these results establish that the combination of ImmTOR and an IL-2 mutein show synergistic benefit on both safety and efficacy to provide durable antigen-specific immune tolerance to mitigate drug immunogenicity and to treat autoimmune diseases.
Keywords: Adeno-associated virus; Antigen-specific immune tolerance; Autoimmune disease; ImmTOR; Interleukin-2; Primary biliary cholangitis; Rapamycin; Regulatory T cells; Type 1 diabetes.
Copyright © 2023 The Authors. Published by Elsevier Ltd.. All rights reserved.
Conflict of interest statement
Declaration of competing interest T.K.K., M.F., A.M., G.R., C.R., T.C., N.N., N.L., L.D., F.F. P.G.T., S.S.L., and P.O.I. are employees and shareholders of Selecta Biosciences, a company developing ImmTOR and ImmTOR-IL. Selecta Biosciences have filed a patent application (WO2022217095A1) on the combination of ImmTOR with engineered Treg-selective IL-2 and have licensed F5111 IC from Johns Hopkins University and the University of California San Francisco. D.VD. and J.B.S. are inventors of a patent application (WO2020264318A1) on F5111 IC.
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