Passive protection of suckling infant mice against F41-positive enterotoxigenic Escherichia coli strains by intravenous inoculation of the dams with monoclonal antibodies against F41.

Abstract

Ten monoclonal antibodies (MAbs) against five different epitope clusters of adhesion factor F41 (two MAbs per cluster) were tested for protection of infant mice against an oral challenge with F41-positive enterotoxigenic Escherichia coli (ETEC) B2C and B41M. Infant mice suckling dams intravenously inoculated with MAbs were orally challenged, and the survival rates were measured for 12 days after inoculation and challenge. Irrespective of their epitope specificity, all F41 MAbs given in a single dose of 4 mg per dam had a protective effect against both ETEC strains. In contrast, one K99 MAb of the same isotype and given in the same dose as the F41 MAbs did not protect infant mice at all. A reduction in the dose of F41 MAbs to 0.032 mg per dam resulted in a decrease in protection. Two different MAbs against the same epitope cluster were not necessarily equally protective. Combining MAbs two by two, whether the MAbs recognized the same epitope cluster or not, resulted in protective activity essentially similar to that obtained with each MAb separately, without any improvement. Therefore, one MAb against any epitope may be sufficient for protection. Enzyme-linked immunosorbent assay (ELISA) titers of MAbs in the serum of dams were similar, irrespective of the epitope specificity of the MAbs, and gradually decreased from day 1 to day 12 after inoculation. We found a good correlation between colostrum and milk ELISA titers of MAbs and serum ELISA titers of MAbs. Colostrum and milk MAb titers were 10-fold lower than corresponding serum MAb titers and stayed high until day 5 after inoculation. The most protective MAb had the highest ELISA titers in colostrum and milk for the first 5 days after inoculation. ETEC strain B2C colonized the intestines of infant mice suckling MAb-inoculated mothers until day 12 after challenge. Intestinal levels of the challenge strain were high on day 2 but never reached the very high numbers (10(9) to 10(10)) described previously in a diarrheic infant mouse model. MAbs did not eliminate the challenge ETEC strain from the intestines of infant mice.