Protein corona–mediated targeting of nanocarriers to B cells allows redirection of allergic immune responses - 06/11/18
, Matthias Bros, PhD a, ∗Abstract |
Background |
Nanoparticle (NP)–based vaccines are attractive immunotherapy tools because of their capability to codeliver antigen and adjuvant to antigen-presenting cells. Their cellular distribution and serum protein interaction (“protein corona”) after systemic administration and their effect on the functional properties of NPs is poorly understood.
Objectives |
We analyzed the relevance of the protein corona on cell type–selective uptake of dextran-coated NPs and determined the outcome of vaccination with NPs that codeliver antigen and adjuvant in disease models of allergy.
Methods |
The role of protein corona constituents for cellular binding/uptake of dextran-coated ferrous nanoparticles (DEX-NPs) was analyzed both in vitro and in vivo. DEX-NPs conjugated with the model antigen ovalbumin (OVA) and immunostimulatory CpG-rich oligodeoxynucleotides were administered to monitor the induction of cellular and humoral immune responses. Therapeutic effects of this DEX-NP vaccine in mouse models of OVA-induced anaphylaxis and allergic asthma were assessed.
Results |
DEX-NPs triggered lectin-induced complement activation, yielding deposition of activated complement factor 3 on the DEX-NP surface. In the spleen DEX-NPs targeted predominantly B cells through complement receptors 1 and 2. The DEX-NP vaccine elicited much stronger OVA-specific IgG2a production than coadministered soluble OVA plus CpG oligodeoxynucleotides. B-cell binding of the DEX-NP vaccine was critical for IgG2a production. Treatment of OVA-sensitized mice with the DEX-NP vaccine prevented induction of anaphylactic shock and allergic asthma accompanied by IgE inhibition.
Conclusions |
Opsonization of lectin-coated NPs by activated complement components results in selective B-cell targeting. The intrinsic B-cell targeting property of lectin-coated NPs can be exploited for treatment of allergic immune responses.
Le texte complet de cet article est disponible en PDF.Key words : Dendritic cells, B cells, complement, antibody, complement factor 3, lectin pathway, IgG2a
Abbreviations used : AIT, APC, BCR, C3, CFSE, CR, DAPI, DC, DEX-NP, FDC, MBL, NP, ODN, OVA, TLR
Plan
| L.S. and S.G. were supported by a grant of the Hoffmann Klose Stiftung. W.S., S.T., and H.S. were supported by Stiftung Rheinland-Pfalz (NANOSCH). L.S., W.S., S.T., H.S., S.G., and M.B. were supported by grants from the DFG (SFB 1066). |
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| Disclosure of potential conflict of interest: S. Tenzer has received grants from Stiftung Rheinland-Pfalz (NANOSCH) and the German Research Foundation (SFB1066). W. Storck has received grants from Deutsche Forschungsgesellschaft (SFB1066) and Stiftung Rheinland-Pfalz (NANOSCH). S. Krauthauser is employed by Miltenyi Biotec GmbH. Hansjörg Schild has received a grant from the German Research Foundation. S. Grabbe has received grants from the German Research Foundation (SFB1066-B04 and SFB1066-B05), Hoffman-Klose Stiftung, and Stiftung Rheinland-Pfalz; has consultant arrangements with AbbVie, Bristol-Myers-Squibb, Roche, Novartis, MSD, Merck-Serono, and Sanofi-Pasteur-MSD; has provided expert testimony for Guidepoint Global advisors and OnkoZert; has received payment for lectures from Bristol-Myers Squibb, MSD, Roche, MedConcept, Beiersdorf, Loreal, and Novartis; and has received travel support from Bristol-Myers Squibb, AbbVie, MSD, Merck-Serono, Roche, Novartis, and Takeda. M. Bros has received a grant from the German Research Foundation. The rest of the authors declare that they have no relevant conflicts of interest. |
Vol 142 - N° 5
P. 1558-1570 - novembre 2018 Retour au numéro
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