Fast track antibody V-gene rescue, recombinant expression in plants and characterization of a PfMSP4-specific antibody

Plasmodium falciparum can now be maintained in continuous culture in human erythrocytes incubated at 38 degrees C in RPMI 1640 medium with human serum under an atmosphere with 7 percent carbon dioxide and low oxygen (1 or 5 percent). The original parasite material, derived from an infected Aotus trivirgatus monkey, was diluted more than 100 million times by the addition of human erythrocytes at 3- or 4-day intervals. The parasites continued to reproduce in their normal asexual cycle of approximately 48 hours but were no longer highly synchronous. The have remained infective to Aotus.

During blood-stage infection by Plasmodium falciparum, merozoites invade RBCs. Currently there is limited knowledge of cellular and molecular invasion events, and no established assays are available to readily measure and quantify invasion-inhibitory antibodies or compounds for vaccine and drug studies. We report the isolation of viable merozoites that retain their invasive capacity, at high purity and yield, purified by filtration of highly synchronous populations of schizonts. We show that the half-life of merozoite invasive capacity after rupture is 5 min at 37 degrees C, and 15 min at room temperature. Studying the kinetics of invasion revealed that 80% of invasion events occur within 10 min of mixing merozoites and RBCs. Invasion efficiency was maximum at low merozoite-to-RBC ratios and occurred efficiently in the absence of serum and with high concentrations of dialyzed nonimmune serum. We developed and optimized an invasion assay by using purified merozoites that enabled invasion-inhibitory activity of antibodies and compounds to be measured separately from other mechanisms of growth inhibition; the assay was more sensitive for detecting inhibitory activity than established growth-inhibition assays. Furthermore, with the use of purified merozoites it was possible to capture and fix merozoites at different stages of invasion for visualization by immunofluorescence microscopy and EM. We thereby demonstrate that processing of the major merozoite antigen merozoite surface protein-1 occurs at the time of RBC invasion. These findings have important implications for defining invasion events and molecular interactions, understanding immune interactions, and identifying and evaluating inhibitors to advance vaccine and drug development.

We have established a highly efficient 96-well format based strategy to characterize the expressed murine antibody repertoire by combining immunoglobulin (Ig) gene cloning with antibody expression and reactivity profiling at the single cell level. Individual mouse B lineage cells are isolated based on defined surface marker expression patterns by fluorescence-activated cell sorting (FACS) and corresponding full-length Ig heavy (H) and Ig light (L) chain variable (V) region gene transcripts are amplified by RT-PCR. Cloning of the amplified products into eukaryotic expression vectors enables the in vitro production of monoclonal antibodies with antigen specificities identical to the initial B cell antigen receptors. IgH and IgL chain gene sequence information is obtained as part of the cloning procedure and can be directly linked to reactivity profiles of the recombinant antibodies. In summary, our RT-PCR based strategy to generate recombinant monoclonal antibodies from single mouse B cells allows the highly efficient and unbiased characterization of the expressed murine antibody repertoire by sequence analysis and parallel antibody reactivity testing.