The present disclosure provides isolated polynucleotides encoding a mature Mycobacterium tuberculosis protein selected from Ag85A, Ag85B, and Ag85C, where the protein does not include a signal for glycosylation, such as a N-glycosylation consensus sequon. Also disclosed are M. tuberculosis proteins selected from Ag85A, Ag85B, and Ag85C that do not include a signal for glycosylation, such as a N-glycosylation consensus sequon, and/or are not glycosylated, and methods for using the polynucleotides and proteins.

The present invention broadly provides different compositions, kits, vectors, and methods including monoclonal antibodies directed to epitopes found within lipoarabinomannan (LAM) and phosphatidyl-myo-inositol mannoside 6 (PIM6) for the diagnosis and treatment of Mycobacterium tuberculosis infections.

The present invention broadly provides different compositions, kits, vectors, and methods including monoclonal antibodies directed to epitopes found within lipoarabinomannan (LAM) and phosphatidyl-myo-inositol mannoside 6 (PIM6) for the diagnosis and treatment of Mycobacterium tuberculosis infections.

The invention features combination therapies using an IL-15-based superagonist complex and an antibody to effectively treat subjects with cancer and infectious diseases.

The invention features combination therapies using an IL-15-based superagonist complex and an antibody to effectively treat subjects with cancer and infectious diseases.

The present invention provides a nanogel nasal vaccine that induces cell-mediated immunity. The present invention relates to a vaccine preparation comprising a complex of a nanogel, a vaccine antigen, and an adjuvant, wherein the vaccine preparation can efficiently induce the cell-mediated immunity, and can also induce a systemic and mucosal immune response.

The present invention provides a nanogel nasal vaccine that induces cell-mediated immunity. The present invention relates to a vaccine preparation comprising a complex of a nanogel, a vaccine antigen, and an adjuvant, wherein the vaccine preparation can efficiently induce the cell-mediated immunity, and can also induce a systemic and mucosal immune response.

The invention relates to immunogenic compositions comprising an antigen obtained or derived from an antigenic epitope of one or more pathogens that induces an immune response in a mammal, an antigen obtained or derived from bacterial cell wall or viral material that induces an immune response in a mammal such as LTA, PNG or LPS, and a T cell stimulating antigen such as CRM. Preferably the immunogenic composition is a vaccine that is effective against a pathogenic infection or can generate antibodies that can be collected that are protective against infection by the pathogen. In addition, the invention relates to vaccines comprising antigens and to method for treating and preventing an infection.

The invention relates to immunogenic compositions comprising an antigen obtained or derived from an antigenic epitope of one or more pathogens that induces an immune response in a mammal, an antigen obtained or derived from bacterial cell wall or viral material that induces an immune response in a mammal such as LTA, PNG or LPS, and a T cell stimulating antigen such as CRM. Preferably the immunogenic composition is a vaccine that is effective against a pathogenic infection or can generate antibodies that can be collected that are protective against infection by the pathogen. In addition, the invention relates to vaccines comprising antigens and to method for treating and preventing an infection.

This disclosure provides replication-incompetent adenoviral vectors useful in vaccine development and gene therapy. The disclosed vectors comprise a selective deletion of E3 and are particularly useful for preparation of vaccines development and for gene therapy using toxic transgene products that result in vector instability that occurs when the entire E3 domain is deleted.