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The Journal of Immunology, Vol 138, Issue 2 484-490, Copyright © 1987 by American Association of Immunologists

ARTICLES

Different functional sites on rIFN-alpha 2 and their relation to the cellular receptor binding site

M Cebrian, E Yague, MO de Landazuri, M Rodiguez-Moya, M Fresno, N Pezzi, S Llamazares and F Sanchez-Madrid

Functional domains on the recombinant interferon-alpha 2 (rIFN-alpha 2) molecule, which are involved in antiviral and NK enhancing activities, have been defined by immunochemical mapping with MAb, and their relationship with the IFN cellular receptor binding site has been studied. With 20 different anti-IFN-alpha 2 MAb selected by their binding to 125I-labeled IFN and by immunoprecipitation of the 20 Kd IFN molecule, we have defined three spatially separated epitopes (designated as sites A, B, and C) and two partially overlapping antigenic determinants on the IFN-alpha 2 molecule. Functional relation of IFN-alpha 2 A, B, and C epitopes have been determined by assaying the effect of various anti-IFN MAb on IFN-mediated biologic activities. MAb directed to sites A and B neutralized the antiviral activity of IFN. Furthermore, the MAb specific for site B displayed a neutralizing potency threefold higher than MAb directed to site A. Site B was also involved in the enhancing activity of IFN on NK-mediated cell cytotoxicity, whereas site A was not. MAb directed to site C partially affected the IFN-boosted NK activity but did not neutralize the IFN antiviral activity. Inhibition studies of 125I-IFN binding to human U- 937 myelomonocytic cells by anti-IFN MAb demonstrated that MAb directed to site B blocked different IFN biologic functions by preventing its binding to the cellular receptor, whereas MAb directed to sites A and C caused no inhibition and partial inhibition of this binding, respectively.


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