Disclosed herein is a Chlamydia-activated B cell (CAB) platform. Also disclosed is a method of enhancing a population of B cells, comprising exposing said B cells to Chlamydia spp. under conditions suitable to enhance the population of B cells, such that expansion and differentiation of said B cells takes place, and said B cells are exposed or crosslinked to an antigen. Also disclosed are methods of producing said CABs, and treating a subject in need thereof with said CABs.

Disclosed herein is a Chlamydia-activated B cell (CAB) platform. Also disclosed is a method of enhancing a population of B cells, comprising exposing said B cells to Chlamydia spp. under conditions suitable to enhance the population of B cells, such that expansion and differentiation of said B cells takes place, and said B cells are exposed or crosslinked to an antigen. Also disclosed are methods of producing said CABs, and treating a subject in need thereof with said CABs.

The present invention provides Chlamydia organisms and compositions and methods of use in the treatment/prevention of chlamydial infection in a subject, for eliciting an immune response in a subject and for use as vectors.

The present invention provides Chlamydia organisms and compositions and methods of use in the treatment/prevention of chlamydial infection in a subject, for eliciting an immune response in a subject and for use as vectors.

The present invention provides a vaccine for feline leukemia virus and methods of making and using the vaccine alone, or in combinations with other protective agents.

Purified Chlamydia major outer membrane protein (MOMP) has been observed to induce protection against genital and respiratory challenge in mice. MOMP contains variable domains that are highly immunogenic and elicit cross-serovar neutralizing monoclonal and polyclonal antibodies and T cell responses in animal and human models. Examples herein provide a method for vaccinating a subject against Chlamydia using a composition that is a recombinant Neisseria porin that contains at least one antigenic variable domain of Chlamydia. The variable domains are inserted into the amino acid sequence of the Neisseria porin at a position encoding a surface-exposed loop of the Neisseria porin. The vaccine further contains an adjuvant that induces a Th1 response greater than a Th2 response.

Purified Chlamydia major outer membrane protein (MOMP) has been observed to induce protection against genital and respiratory challenge in mice. MOMP contains variable domains that are highly immunogenic and elicit cross-serovar neutralizing monoclonal and polyclonal antibodies and T cell responses in animal and human models. Examples herein provide a method for vaccinating a subject against Chlamydia using a composition that is a recombinant Neisseria porin that contains at least one antigenic variable domain of Chlamydia. The variable domains are inserted into the amino acid sequence of the Neisseria porin at a position encoding a surface-exposed loop of the Neisseria porin. The vaccine further contains an adjuvant that induces a Th1 response greater than a Th2 response.

The invention provides Chlamydia antigens for use in the treatment, prevention and/or diagnosis of Chlamydia infection. In particular, the invention provides antigens CT733, CT153, CT601, CT279, CT443, CT372, CT456, CT381, CT255, CT341, CT716, CT745, CT387, CT812, CT869, CT166, CT175, CT163, CT214, CT721, CT127, CT043, CT823 and/or CT600 from C. trachomatis for the treatment, prevention or diagnosis of Chlamydia infection.

The invention provides Chlamydia antigens for use in the treatment, prevention and/or diagnosis of Chlamydia infection. In particular, the invention provides antigens CT733, CT153, CT601, CT279, CT443, CT372, CT456, CT381, CT255, CT341, CT716, CT745, CT387, CT812, CT869, CT166, CT175, CT163, CT214, CT721, CT127, CT043, CT823 and/or CT600 from C. trachomatis for the treatment, prevention or diagnosis of Chlamydia infection.

The disclosure relates to a composition comprising one, two or more immunogenic bacterial polypeptides and multivalent and monovalent vaccine compositions comprising the immunogenic bacterial polypeptides.