Contemplated compositions, devices, and methods are drawn to various antigens from the pathogen M. tuberculosis and their use in vaccines, therapeutic agents, and various diagnostic tests. In particularly preferred aspects, the antigens are immunodominant and have quantified and known relative reactivities with respect to sera of a population infected with the pathogen, and/or have a known association with a disease parameter

Compositions and methods for the treatment of Chlamydial infection are disclosed. The compositions provided include polypeptides that contain at least one antigenic portion of a Chlamydia antigen and DNA sequences encoding such polypeptides. Pharmaceutical compositions, vaccines and diagnostic kits are also disclosed.

Compositions and methods for the treatment of Chlamydial infection are disclosed. The compositions provided include polypeptides that contain at least one antigenic portion of a Chlamydia antigen and DNA sequences encoding such polypeptides. Pharmaceutical compositions, vaccines and diagnostic kits are also disclosed.

The present invention relates to an adjuvant composition comprising dimethyldioctadecyl ammonium salt (DDA), monomycoloyl glycerol (MMG), and the CpG ODN 2006 oligodeoxynucleotide having SEQ ID NO:1 or a sequence having 90% identity to SEQ ID NO:1. Another aspect of the present invention is a vaccine comprising said adjuvant composition and at least one antigen, and the use of said vaccine in prevention or treatment of an infectious disease.

The present invention relates to an adjuvant composition comprising dimethyldioctadecyl ammonium salt (DDA), monomycoloyl glycerol (MMG), and the CpG ODN 2006 oligodeoxynucleotide having SEQ ID NO:1 or a sequence having 90% identity to SEQ ID NO:1. Another aspect of the present invention is a vaccine comprising said adjuvant composition and at least one antigen, and the use of said vaccine in prevention or treatment of an infectious disease.

Using a novel dependence on plasmid-mediated expression (DOPE) technology, conditional depletion of GrgA, a Chlamydia-specific protein, has been demonstrated to result in greatly reduced reticulate body (RB) proliferation rate and near complete lack of elementary body (EB) formation, thus disrupting the normal chlamydial developmental cycle. This conditional GrgA-deficient Chlamydia allows study of chlamydial growth and developmental regulation and can be used as the basis of an attenuated, maturation-defective but immunogenic bacteria for use as an avirulent vaccine against Chlamydia.

Using a novel dependence on plasmid-mediated expression (DOPE) technology, conditional depletion of GrgA, a Chlamydia-specific protein, has been demonstrated to result in greatly reduced reticulate body (RB) proliferation rate and near complete lack of elementary body (EB) formation, thus disrupting the normal chlamydial developmental cycle. This conditional GrgA-deficient Chlamydia allows study of chlamydial growth and developmental regulation and can be used as the basis of an attenuated, maturation-defective but immunogenic bacteria for use as an avirulent vaccine against Chlamydia.

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.

This invention relates to compositions (e.g., vaccine compositions) which can be used to immunise against Chlamydia infections. The compositions comprise Chlamydia sp. antigens and antigen combinations which can be used to immunise against Chlamydia sp., used in the form of nucleic acids (e.g., mRNAs) encoding antigenic proteins or in the form of recombinant protein antigens.