Abstract
Recent studies demonstrate that excess signaling through inflammatory pathways (e.g., toll-like receptors, TLRs) contributes to the pathogenesis of human autoimmune diseases, including lupus, diabetes, and multiple sclerosis (MS). We hypothesized that codelivery of a regulatory ligand of TLR9, GpG oligonucleotide, along with myelin-the "self" molecule attacked in MS-might restrain the pro-inflammatory signaling typically present during myelin presentation, redirecting T cell differentiation away from inflammatory populations and toward tolerogenic phenotypes such as regulatory T cells. Here we show that myelin peptide and GpG can be used as modular building blocks for co-assembly into immune polyelectrolyte multilayers (iPEMs). These nanostructured capsules mimic attractive features of biomaterials, including tunable cargo loading and codelivery, but eliminate all carriers and synthetic polymers, components that often exhibit intrinsic inflammatory properties that could exacerbate autoimmune disease. In vitro, iPEMs assembled from myelin and GpG oligonucleotide, but not myelin and a control oligonucleotide, restrain TLR9 signaling, reduce dendritic cell activation, and polarize myelin-specific T cells toward tolerogenic phenotype and function. In mice, iPEMs blunt myelin-triggered inflammatory responses, expand regulatory T cells, and eliminate disease in a common model of MS. Finally, in samples from human MS patients, iPEMs bias myelin-triggered immune cell function toward tolerance. This work represents a unique opportunity to use PEMs to regulate immune function and promote tolerance, supporting iPEMs as a carrier-free platform to alter TLR function to reduce inflammation and combat autoimmunity.
Highlights
MethodsPrepared substrates were coated with base layers of strong polyelectrolytes, poly(ethylenimine) (PEI, Polysciences, Inc.) and poly(sodium 4styrenesulfonate) (SPS, Sigma-Aldrich), as previously reported.[32] Briefly, chips were incubated in 20 mM PEI with 50 mM NaCl and 5 mM HCl for 5 min, washed twice in water for 1 min, incubated in 20 mM SPS with 50 mM NaCl for 5 min, and washed two more times with water
IPEM Assembly and Characterization. immune polyelectrolyte multilayers (iPEMs) were first deposited on planar substrates to characterize the assembly of GpG with myelin oligodendrocyte glycoprotein (MOG) conjugated to triarginine (MOG-R3)
We investigated whether the cargo loading of iPEMs could be tuned, as the combinations and relative doses of immune signals play a major role in determining the magnitude and polarization of antigen-specific response.[37]
Summary
Prepared substrates were coated with base layers of strong polyelectrolytes, poly(ethylenimine) (PEI, Polysciences, Inc.) and poly(sodium 4styrenesulfonate) (SPS, Sigma-Aldrich), as previously reported.[32] Briefly, chips were incubated in 20 mM PEI with 50 mM NaCl and 5 mM HCl for 5 min, washed twice in water for 1 min, incubated in 20 mM SPS with 50 mM NaCl for 5 min, and washed two more times with water This process was repeated for a total of 10 deposition cycles using a DR3 dipping robot (Riegler & Kirstein GmbH), and chips were dried under air and stored at room temperature until subsequent coating with iPEMs
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