Harris L. Rotman scite author profile

The goal of the present study was to determine if immune-mediated killing of S. stercoralis L3 in mice could be modulated by shifting from a Th-2 to a Th-1 type immune response. L3 killing in immunized mice was ablated in CD4+ T cell-depleted animals, but not in CD8+ T cell-depleted or beta 2-microglobulin-deficient mice. Treatment of immunized mice with IL-4 or IL-5 neutralizing MoAb significantly reduced the protective effects of vaccination against S. stercoralis, while protective immunity was unimpaired in IFN-gamma knockout mice. Recombinant IL-12 was administered to infected mice to switch the immune response from a Th-2 to a Th-1 type response. Protective immunity was ablated in immunized mice that received IL-12 therapy. Eosinophil numbers, eosinophil peroxidase levels, and parasite-specific IgG1 levels were lowered in IL-12 treated immunized animals, and parasite-specific IgG2a levels were increased in these animals. The data indicate that eosinophils are important as mediators of larval killing, and that the establishment of Th-2 type immunity results in killing of infective S. stercoralis L3, while a shift to Th-1 type immunity abrogates protective responses.

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Plasmodium: Immunization with Carboxyl-Terminal Regions of MSP-1 Protects against Homologous but Not Heterologous Blood-Stage Parasite Challenge

Rotman

Daly

Long

1999

Experimental Parasitology

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Harris L. Rotman

Strongyloides stercoralis: Protective Immunity to Third-Stage Larvae in BALB/cByJ Mice

Strongyloides stercoralis:Eosinophil-Dependent Immune-Mediated Killing of Third Stage Larvae in BALB/cByJ Mice

Strongyloides stercoralis:Role of Antibody and Complement in Immunity to the Third Stage Larvae in BALB/cByJ Mice

IL‐12 eliminates the Th‐2 dependent protective immune response of mice to larval Strongyloides stercoralis

Plasmodium: Immunization with Carboxyl-Terminal Regions of MSP-1 Protects against Homologous but Not Heterologous Blood-Stage Parasite Challenge

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