TY - JOUR
T1 - Protective and herapeutic capacity of human single-chain Fv-Fc fusion proteins against West Nile virus
AU - Gould, L. Hannah
AU - Sui, Jianhua
AU - Foellmer, Harald
AU - Oliphant, Theodore
AU - Wang, Tian
AU - Ledizet, Michel
AU - Murakami, Akikazu
AU - Noonan, Kristin
AU - Lambeth, Cassandra
AU - Kar, Kalipada
AU - Anderson, John F.
AU - De Silva, Aravinda M.
AU - Diamond, Michael S.
AU - Koski, Raymond A.
AU - Marasco, Wayne A.
AU - Fikrig, Erol
PY - 2005/12
Y1 - 2005/12
N2 - West Nile virus has spread rapidly across the United States, and there is currently no approved human vaccine or therapy to prevent or treat disease. Passive immunization with antibodies against the envelope protein represents a promising means to provide short-term prophylaxis and treatment for West Nile virus infection. In this study, we identified a panel of 11 unique human single-chain variable region antibody fragments (scFvs) that bind the envelope protein of West Nile virus. Selected scFvs were converted to Fc fusion proteins (scFv-Fcs) and were tested in mice for their ability to prevent lethal West Nile virus infection. Five of these scFv-Fcs, 11, 15, 71, 85, and 95, protected 100% of mice from death when given prior to infection with virus. Two of them, 11 and 15, protected 80% of mice when given at days 1 and 4 after infection. In addition, four of the scFv-Fcs cross-neutralized dengue virus, serotype 2. Binding assays using yeast surface display demonstrated that all of our scFvs bind to sites within domains I and II of West Nile virus envelope protein. These recombinant human scFvs are potential candidates for immunoprophylaxis and therapy of flavivirus infections.
AB - West Nile virus has spread rapidly across the United States, and there is currently no approved human vaccine or therapy to prevent or treat disease. Passive immunization with antibodies against the envelope protein represents a promising means to provide short-term prophylaxis and treatment for West Nile virus infection. In this study, we identified a panel of 11 unique human single-chain variable region antibody fragments (scFvs) that bind the envelope protein of West Nile virus. Selected scFvs were converted to Fc fusion proteins (scFv-Fcs) and were tested in mice for their ability to prevent lethal West Nile virus infection. Five of these scFv-Fcs, 11, 15, 71, 85, and 95, protected 100% of mice from death when given prior to infection with virus. Two of them, 11 and 15, protected 80% of mice when given at days 1 and 4 after infection. In addition, four of the scFv-Fcs cross-neutralized dengue virus, serotype 2. Binding assays using yeast surface display demonstrated that all of our scFvs bind to sites within domains I and II of West Nile virus envelope protein. These recombinant human scFvs are potential candidates for immunoprophylaxis and therapy of flavivirus infections.
UR - http://www.scopus.com/inward/record.url?scp=27744601405&partnerID=8YFLogxK
U2 - 10.1128/JVI.79.23.14606-14613.2005
DO - 10.1128/JVI.79.23.14606-14613.2005
M3 - Article
C2 - 16282460
AN - SCOPUS:27744601405
SN - 0022-538X
VL - 79
SP - 14606
EP - 14613
JO - Journal of virology
JF - Journal of virology
IS - 23
ER -