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Solid nanoemulsion as antigen and immunopotentiator carrier for transcutaneous immunization

•A solid nanoemulsion as promising carrier for transcutaneous immunization.•The oil component is important for permeation of the immune potentiator.•Immune responses can be stronger than from a commercially available carrier.•Addresses skin Langerhans cells without systemic side effects. Imiquimod,...

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Bibliographic Details
Published in:Cellular immunology 2016-10, Vol.308, p.35-43
Main Authors: Gogoll, Karsten, Stein, Pamela, Lee, K.D., Arnold, Philipp, Peters, Tanja, Schild, Hansjörg, Radsak, Markus, Langguth, Peter
Format: Article
Language:English
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Summary:•A solid nanoemulsion as promising carrier for transcutaneous immunization.•The oil component is important for permeation of the immune potentiator.•Immune responses can be stronger than from a commercially available carrier.•Addresses skin Langerhans cells without systemic side effects. Imiquimod, a toll-like receptor 7 (TLR7) agonist, is an active pharmaceutical ingredient (API) established for the topical treatment of several dermal cancerous and precancerous skin lesions. Within this work, the immunostimulatory effect of imiquimod is further exploited in a transcutaneous immunization (TCI) approach based on a solid nanoemulsion (SN) formulation. SN contains a combination of imiquimod with the model peptide antigen SIINFEKL as a novel approach to omit needle and syringe and optimize dermal antigen administration. Excipients including sucrose fatty acid esters and the pharmaceutically acceptable oils MCT (middle chain triglycerides), avocado oil, jojoba wax and squalene are high pressure homogenized together with the antigen SIINFEKL. Freeze drying was performed to eliminate water and to achieve spreadable properties of the formulation for dermal administration. The influence of the different oil components was assessed regarding in vitro drug permeation in a Franz diffusion cell model using a murine skin setup. In vivo performance in terms of cytotoxic T-cell response was assessed in a C57BL/6 mouse model. Whereas Aldara® cream contains imiquimod in a dissolved state, the SN formulations carry the active in a suspended state. This resulted in a reduction of imiquimod permeation across murine skin from the SN when compared to Aldara® cream. In spite of this permeation rate reduction, each SN induced an in vivo immune response by specific T-cell lysis. A stabilized solid nanosuspension containing squalene/tocopherol exhibited a significantly higher performance (p⩽0.05) in comparison with Aldara® cream. MCT based SN exerted an in vivo effect comparable to Aldara®. In conclusion, anhydrous highly dispersed vehicles containing imiquimod in a submicron particle size distribution can represent promising formulations for TCI. The choice of the oil component has a strong influence on SN performance, independent of in vitro drug permeation.
ISSN:0008-8749
1090-2163
DOI:10.1016/j.cellimm.2016.06.001