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Published December 6, 2012 | Supplemental Material + Accepted Version
Journal Article Open

HIV therapy by a combination of broadly neutralizing antibodies in humanized mice

Klein, Florian
Halper-Stromberg, Ariel
Horwitz, Joshua A.
Gruell, Henning
Scheid, Johannes F.
Bournazos, Stylianos
Mouquet, Hugo
Spatz, Linda A.
Diskin, Ron ORCID icon
Abadir, Alexander
Zang, Trinity
Dorner, Marcus
Billerbeck, Eva
Labitt, Rachael N.
Gaebler, Christian
Marcovecchio, Paola M.
Incesu, Reha-Baris
Eisenreich, Thomas R.
Bieniasz, Paul D.
Seaman, Michael S.
Bjorkman, Pamela J. ORCID icon
Ravetch, Jeffrey V.
Ploss, Alexander
Nussenzweig, Michel C. ORCID icon

Abstract

Human antibodies to human immunodeficiency virus-1 (HIV-1) can neutralize a broad range of viral isolates in vitro and protect non-human primates against infection. Previous work showed that antibodies exert selective pressure on the virus but escape variants emerge within a short period of time. However, these experiments were performed before the recent discovery of more potent anti-HIV-1 antibodies and their improvement by structure-based design. Here we re-examine passive antibody transfer as a therapeutic modality in HIV-1-infected humanized mice. Although HIV-1 can escape from antibody monotherapy, combinations of broadly neutralizing antibodies can effectively control HIV-1 infection and suppress viral load to levels below detection. Moreover, in contrast to antiretroviral therapy the longer half-life of antibodies led to control of viraemia for an average of 60 days after cessation of therapy. Thus, combinations of potent monoclonal antibodies can effectively control HIV-1 replication in humanized mice, and should be re-examined as a therapeutic modality in HIV-1-infected individuals.

Additional Information

© 2012 Macmillan Publishers Limited. Received 21 May; accepted 20 September 2012; Published online 24 October 2012. We thank R. Kaiser for analysing viral loads of reference HIV-1 samples and N. N. Freund for producing YU2 gp120. We thank B. Flatley, T. Friling, H. Gao, S. Sell and S. Hinklein for assistance and technical support, M. Suarez-Farinas for advice on statistical analysis, and M. Babayeva for helping with antibody t1/2 estimation. M.C.N. and F.K. have a pending patent application for the antibody 3BC176 and M.C.N., P.J.B. and H.M. for the antibody 10-1074 with the United States Patent and Trademark Office.These reagents are available with aMaterial Transfer Agreement. F.K. (KL 2389/1-1), M.D. (DO 1450/1-1) and E.B. (BI 1422/1-1) were supported by the German Research Foundation (DFG). H.G., C.G. and R.-B.I. were supported by The German National Academic Foundation. M.S.S. was supported by the Bill and Melinda Gates Foundation's Comprehensive Antibody Vaccine Immune Monitoring Consortium, grant number 1032144. A.P. is a recipient of a Liver Scholar Award from the American Liver Foundation. This work was supported in part by CAVD grant OPP1033115 from the Bill and Melinda Gates Foundation to M.C.N., in part by NIAID 1UM1AI100663 to M.C.N. and NIH grant AI081677 to M.C.N. M.C.N., P.J.B. and P.D.B. are HHMI investigators. Author Contributions: F.K., A.H.-S. and J.A.H. planned and performed experiments and wrote the manuscript. H.G., J.F.H., S.B., H.M., L.A.S., R.D., A.A., T.Z., M.D., E.B., R.N.L., C.G., P.M.M., R.-B.I., T.R.E. and M.S.S. performed experiments. P.D.B., P.J.B., J.V.R. and A.P. provided reagents, advice and edited themanuscript. M.C.N. planned experiments and wrote the manuscript.

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Accepted Version - nihms-513662.pdf

Supplemental Material - nature11604-s1.pdf

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