Murine red blood cells as efficient carriers of three bacterial antigens for the production of specific and neutralizing antibodies

Abstract

Three bacterial toxoids, CRM 197 (mutagenized diphtheria toxin), tetanus toxoid (formaldehyde-treated tetanus toxin), and PT-9K/129G (double mutant of pertussin toxin) were encapsulated within red blood cells (RBCs) of B6D2F1 and Balb/C mice according to a mild procedure based on hypotonic dialysis-isotonic resealing that yielded undamaged RBCs. The toxoid-loaded RBCs were injected intravenously in order to immunize animals and their effects were compared to those of identical amounts (30-95 micrograms per mouse subdivided into multiple injections) of the corresponding free toxoids injected intravenously in saline. Sera from treated mice were collected and tested for titers of specific antibodies against each of the three antigens and also for titers of neutralizing antibodies, i.e., affording protection from toxic effects induced by the corresponding native toxins. In all experiments, significant seroconversion was observed with both immunization systems. Titers of both specific and neutralizing antibodies against CRM 197 and tetanus toxoid were several-fold higher upon immunization with the RBC-encapsulated toxoids, than with the free toxoids. These differences were not due to qualitatively different recognition patterns of antigenic determinants by the two types of sera. Conversely, intravenous immunization with pertussis toxoid either as RBC-encapsulated or as free antigen elicited a comparably high production of specific and of neutralizing antibodies. These data demonstrate that properly engineered RBCs behave as natural carriers and possibly adjuvants for antigens of vaccinal interest.