The present invention relates to methods for the recombinant expression of chlamydia major outer membrane protein (MOMP) comprising transforming a population of E. coli host cells with an expression vector comprising a nucleic acid molecule that encodes chlamydia MOMP and encodes a leader sequence for targeting the MOMP to the outer membrane of the cell, wherein the nucleic acid molecule is operatively linked to a promoter. The method of the invention allows expression of MOMP in the outer membrane of the cell, which leads to protein folding that is more like native MOMP relative to a MOMP protein that is expressed intracellularly. Also provided by the invention are uses of the recombinant MOMP in pharmaceutical compositions and methods for the treatment and/or prophylaxis of chlamydia infection and/or the effects thereof.

The present invention relates to methods for the recombinant expression of chlamydia major outer membrane protein (MOMP) comprising transforming a population of E. coli host cells with an expression vector comprising a nucleic acid molecule that encodes chlamydia MOMP and encodes a leader sequence for targeting the MOMP to the outer membrane of the cell, wherein the nucleic acid molecule is operatively linked to a promoter. The method of the invention allows expression of MOMP in the outer membrane of the cell, which leads to protein folding that is more like native MOMP relative to a MOMP protein that is expressed intracellularly. Also provided by the invention are uses of the recombinant MOMP in pharmaceutical compositions and methods for the treatment and/or prophylaxis of chlamydia infection and/or the effects thereof.

Disclosed herein is a recombinant Chlamydia-activated B cell (CAB) platform, vaccines, and methods of using the same. Disclosed is a method of enhancing a population of B cells, comprising exposing said B cells to a recombinant polypeptide derived from a 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 to use a recombinant polypeptide derived from a Chlamydia spp. as an adjuvant for induction of enhanced humoral immunity against an unrelated antigen (e.g., humoral immunity against HIV antigen). Also disclosed are methods of producing said CABs, and treating a subject in need thereof with said CABs.

Disclosed herein is a recombinant Chlamydia-activated B cell (CAB) platform, vaccines, and methods of using the same. Disclosed is a method of enhancing a population of B cells, comprising exposing said B cells to a recombinant polypeptide derived from a 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 to use a recombinant polypeptide derived from a Chlamydia spp. as an adjuvant for induction of enhanced humoral immunity against an unrelated antigen (e.g., humoral immunity against HIV antigen). Also disclosed are methods of producing said CABs, and treating a subject in need thereof with said CABs.

The present invention describes an efficient vaccine against a Chlamydia trachomatis (Ct). The vaccine is based on recombinant fusion molecules that are capable of generating a high titered neutralizing antibody response that is protective against various Ct serovars. Our invention furthermore describe the combination of these antibody promoting fragments with Ct antigens that are targets for T cells with the aim to provide a vaccine that activate both arms of the immune system.

The present invention describes an efficient vaccine against a Chlamydia trachomatis (Ct). The vaccine is based on recombinant fusion molecules that are capable of generating a high titered neutralizing antibody response that is protective against various Ct serovars. Our invention furthermore describe the combination of these antibody promoting fragments with Ct antigens that are targets for T cells with the aim to provide a vaccine that activate both arms of the immune system.

The present invention relates to a method for detecting and diagnosing Chlamydia suis infections in a subject, and a diagnostic kit therefor.

The present invention relates to a method for detecting and diagnosing Chlamydia suis infections in a subject, and a diagnostic kit therefor.

The invention provides Chlamydia antigens for use in the treatment, prevention and/or diagnosis of Chlamydia infection. In particular, the invention provides antigens CT733, CTI 53, 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, CTI 53, 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.