Successful DNA immunization against measles: neutralizing antibody against either the hemagglutinin or fusion glycoprotein protects rhesus macaques without …
Nature medicine, 2000•nature.com
Measles remains a principal cause of worldwide mortality, in part because young infants
cannot be immunized effectively. Development of new vaccines has been hindered by
previous experience with a formalin-inactivated vaccine that predisposed to a severe form of
disease (atypical measles). Here we have developed and tested potential DNA vaccines for
immunogenicity, efficacy and safety in a rhesus macaque model of measles. DNA protected
from challenge with wild-type measles virus. Protection correlated with levels of neutralizing …
cannot be immunized effectively. Development of new vaccines has been hindered by
previous experience with a formalin-inactivated vaccine that predisposed to a severe form of
disease (atypical measles). Here we have developed and tested potential DNA vaccines for
immunogenicity, efficacy and safety in a rhesus macaque model of measles. DNA protected
from challenge with wild-type measles virus. Protection correlated with levels of neutralizing …
Abstract
Measles remains a principal cause of worldwide mortality, in part because young infants cannot be immunized effectively. Development of new vaccines has been hindered by previous experience with a formalin-inactivated vaccine that predisposed to a severe form of disease (atypical measles). Here we have developed and tested potential DNA vaccines for immunogenicity, efficacy and safety in a rhesus macaque model of measles. DNA protected from challenge with wild-type measles virus. Protection correlated with levels of neutralizing antibody and not with cytotoxic T lymphocyte activity. There was no evidence in any group, including those receiving hemagglutinin-encoding DNA alone, of ‘priming’for atypical measles.
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