QUANTIFICATION OF BOVINE IMMUNOGLOBULIN-G, IMMUNOGLOBULIN-M, AND IMMUNOGLOBULIN-A ANTIBODIES TO CLOSTRIDIUM PERFRINGENS B-TOXIN BY ENZYME IMMUNOASSAY: SYSTEMIC EFFECTS OF MATERNALLY DERIVED ANTIBODIES ON IMMUNIZATION OF NEWBORN CALVES.

Abstract

A quantitative competitive binding "triple sandwich" enzyme immunoassay was used to evaluate pathogen/class-specific antibody responses in Holstein-Friesian calves vaccinated against Clostridium perfringens B-toxin at various ages postpartum. Vaccination of dams at six weeks and again at two weeks prepartum increased pathogen-specific antibody levels in their colostrum and respective calf's serum. Calves initially vaccinated at three days produced both a primary and secondary pathogen-specific antibody response, whereas calves initially vaccinated at 12 and 21 days produced only secondary responses. Maternally-derived antibodies were found to suppress neonatal antibody production following primary immunization. They were also found to influence secondary humoral immune responses, although in a diminished capacity. Pathogen-specific IgG and IgM concentrations in dams' sera and colostra were found related to subsequent pathogen-specific IgG and IgM neonatal serum concentrations. Only pathogen-specific IgA in dams' colostra was correlated to neonatal levels, possibly owing to a different origin and role of this immunoglobulin class. All class-specific colostral immunoglobulin levels were related to subsequent neonatal concentrations. Based on results from this experiment, it is recommended that calves be vaccinated at three days postpartum with a booster administered at 63 days