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Author Notes:

Email Address: Brian Pollack :bppolla@emory.edu Ioanna Skountzou :iskount2emory.edu

I.S. and B.P.P. supervised the experiments.

J.A.P.-P., I.S. and B.P.P. designed the experimental protocols.

J.A.P-P., I.S., E.S.S., B.S. and B.P.P., carried out the experiments.

J.A.P.-P., I.S., B.P.P. and R.W.C. analyzed and discussed the results and wrote the manuscript.

All authors reviewed the manuscript.

The authors thank Mr. Michael Schottroff and Ms. Dianne Alexis for technical assistance with histopathology.

Ms. Kathryn Lankhaar Wehrmeyer for technical assistance with immunostaining of frozen skin tissue sections; and Drs. R. Yacoub and R. Bostick for assistance with slide scanning.

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Research Funding:

B.P.P. is supported by the Atlanta Veterans Affairs Medical Center, the Winship Cancer Institute Melanoma and Skin Cancer Fund, the Emory University School of Medicine Department of Dermatology, and the Melanoma Research Foundation.

I.S. is supported by the US Agency for International Development, grant number AID-OAA-F13-00083 and NIH/NIAID Agency Award: 1R01AI111557-01.

Modulation of influenza vaccine immune responses using an epidermal growth factor receptor kinase inhibitor.

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Journal Title:

Scientific Reports

Volume:

Volume 5

Publisher:

, Pages 12321-12321

Type of Work:

Article | Final Publisher PDF

Abstract:

Systemic use of epidermal growth factor receptor inhibitors (EGFRIs) has been shown to alter MHC expression and that of several chemokines, and to enhance immune cell recruitment into human skin. We hypothesized that EGFRIs may have value as cutaneous immune response modifiers, and determined the effects of topical application of an irreversible EGFRI on a well-established murine model of influenza vaccination. We found that a single topical application of an EGFRI led to increased levels of antibodies that inhibit influenza mediated hemagglutination and viral cytopathic effects. The topically applied EGFRI significantly enhanced the generation of vaccine-specific IL-4 and IFN-γ producing cells within skin-draining lymph nodes as early as one week following vaccination. The EGFRI/vaccine group showed a twelve-fold reduction in detectable pulmonary viral load four days after infection as compared to the vaccine alone control group. The reduction in the lung viral titers correlated with the survival rate, which demonstrated 100% protection in the EGFRI/vaccine immunized group but only 65% protection in the mice immunized with vaccine alone. These findings are significant because they demonstrate that inhibition of defined signaling pathways within the skin using small molecule kinase inhibitors provides a novel approach to enhance immune responses to vaccines.

Copyright information:

© 2015, Macmillan Publishers Limited

This is an Open Access article distributed under the terms of the Creative Commons Attribution 4.0 International License ( http://creativecommons.org/licenses/by/4.0/), which permits distribution of derivative works, making multiple copies, distribution, public display, and publicly performance, provided the original work is properly cited. This license requires credit be given to copyright holder and/or author, copyright and license notices be kept intact.

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