@article{85441, keywords = {Humans, Cell Membrane, Antibodies, Monoclonal, Cholesterol, Neutralization Tests, HEK293 Cells, HIV-1, Antibodies, Neutralizing, HIV Antibodies}, author = {Krzysztof Lacek and Richard Urbanowicz and Fulvia Troise and Claudia De Lorenzo and Valeria Severino and Antimo Di Maro and Alexander Tarr and Francesca Ferrara and Alexander Ploss and Nigel Temperton and Jonathan Ball and Alfredo Nicosia and Riccardo Cortese and Antonello Pessi}, title = {Dramatic potentiation of the antiviral activity of HIV antibodies by cholesterol conjugation.}, abstract = {

The broadly neutralizing antibodies HIV 2F5 and 4E10, which bind to overlapping epitopes in the membrane-proximal external region of the fusion protein gp41, have been proposed to use a two-step mechanism for neutralization; first, they bind and preconcentrate at the viral membrane through their long, hydrophobic CDRH3 loops, and second, they form a high affinity complex with the protein epitope. Accordingly, mutagenesis of the CDRH3 can abolish their neutralizing activity, with no change in the affinity for the peptide epitope. We show here that we can mimic this mechanism by conjugating a cholesterol group outside of the paratope of an antibody. Cholesterol-conjugated antibodies bind to lipid raft domains on the membrane, and because of this enrichment, they show increased antiviral potency. In particular, we find that cholesterol conjugation (i) rescues the antiviral activity of CDRH3-mutated 2F5, (ii) increases the antiviral activity of WT 2F5, (iii) potentiates the non-membrane-binding HIV antibody D5 10-100-fold (depending on the virus strain), and (iv) increases synergy between 2F5 and D5. Conjugation can be made at several positions, including variable and constant domains. Cholesterol conjugation therefore appears to be a general strategy to boost the potency of antiviral antibodies, and, because membrane affinity is engineered outside of the antibody paratope, it can complement affinity maturation strategies.

}, year = {2014}, journal = {J Biol Chem}, volume = {289}, pages = {35015-28}, month = {12/2014}, issn = {1083-351X}, doi = {10.1074/jbc.M114.591826}, language = {eng}, }