Abstract
West Nile virus (WNV)-neutralizing intravenous immune globulins (IVIG) were fractionated into IgG subclasses, and the contribution of each subclass to in vitro neutralization of and in vivo protection against WNV was evaluated. The results indicate that IgG1 (i) is the main subclass induced following WNV infection of humans, (ii) contained nearly all the in vitro WNV neutralization capacity, and (iii) mediates effector functions in vivo that render it superior to other subclasses in protection against WNV. The importance of human IgG1 indicates that a candidate WNV vaccine should induce an immune response that includes WNV-specific IgG1.