Pharyngeal carriage of inoculated recombinant commensal bacteria generates antigen-specific immunological memory

The human nasopharynx is colonized by commensal bacteria and pathobionts, which comprise a complex microbial ecosystem capable of generating primary and secondary immune responses. Experimental intranasal infection of human adults with the commensal Neisseria lactamica results in safe, sustained colonization. Herein is described a novel technology to chromosomally transform N. lactamica with heterologous antigen, for the purpose of safe delivery to the mucosal surface and the generation of an antigen-specific immune response. N. lactamica was transformed to express the meningococcal vaccine antigen Neisseria Adhesin A (NadA) and was inoculated intranasally into humans at a dose of 105 colony-forming units. NadA-expressing N. lactamica colonized these individuals and was carried asymptomatically for 3 months. Colonization with NadA-expressing N. lactamica generated NadA-specific IgG-secreting plasma cells within 14 days of colonization and both NadA-specific IgG and NadA-specific IgG memory B cells within 28 days of colonization. NadA-specific IgG memory B cells circulated in the bloodstream of colonized participants for at least 90 days. Genetically transformed N. lactamica has the potential to be a safe bacterial vehicle to generate beneficial immune responses to a wide range of heterologous antigens during sustained pharyngeal carriage.