Abstract: The present invention relates to the preparation and use in primates of whole organismvaccines in which the MEP pathway is disrupted such that synthesis of HMBPP by the bacterial cells is substantially blocked. The data provided demonstrates that, when bacteria or other vaccine vectors that comprise an active MEP pathway are used in vaccine methods, the ?? T cell response dominates, potentially clearing the vaccine strain via ?? T cell-mediated killing of vector infected antigen presenting cells and reducing its utility as a stimulator of a productive adaptive immune response, specifically priming or boosting of CD4+ and CD8+ ?? T cell responses, specific for listerial-encoded antigens. By disrupting the MEP pathway, activation and expansion of ?? T cells is limited in the recipient primate, resulting in resulting in an increase in the magnitude and duration of inflammation and in the magnitude and duration of antigen presentation by the cellular vaccine.

Abstract: It is disclosed herein that viruses coated in silica retain infectivity and the capacity to induce an immune response in an infected host. In addition, silicified virus is remarkably resistant to desiccation. Provided herein are methods of inducing a virus-specific immune response in a subject by administering to the subject an effective amount of silicified virus or silicified virus particles. Methods of enhancing a virus-specific cell-mediated immune response (such as a T cell-mediated immune response) in a subject by administering to the subject a silicified virus or silicified virus particles are also described herein. Further provided are immunogenic compositions comprising silicified virus or silicified virus particles, such as compositions useful as vaccines. The immunogenic compositions include a pharmaceutically acceptable carrier and/or an adjuvant.

Abstract: The present invention relates to methods of inducing a T-cell response against a EGFRvIII in a subject. These method comprise administering to a subject a composition which expresses at least one immunogenic polypeptide, the amino acid sequence of which comprise a plurality of EGFRvIII polypeptide sequences, the sequence of which each comprise EEKKGNYV (SEQ ID NO: 3), and/or administering the polypeptide itself.

Abstract: The present invention relates to methods of inducing a T-cell response against a EGFRvIII in a subject. These method comprise administering to a subject a composition which expresses at least one immunogenic polypeptide, the amino acid sequence of which comprise a plurality of EGFRvIII polypeptide sequences, the sequence of which each comprise EEKKGNYV (SEQ ID NO: 3), and/or administering the polypeptide itself.

Abstract: The present invention relates to the preparation and use in primates of whole organismvaccines in which the MEP pathway is disrupted such that synthesis of HMBPP by the bacterial cells is substantially blocked. The data provided demonstrates that, when bacteria or other vaccine vectors that comprise an active MEP pathway are used in vaccine methods, the ?? T cell response dominates, potentially clearing the vaccine strain via ?? T cell-mediated killing of vector infected antigen presenting cells and reducing its utility as a stimulator of a productive adaptive immune response, specifically priming or boosting of CD4+ and CD8+ ?? T cell responses, specific for listerial-encoded antigens. By disrupting the MEP pathway, activation and expansion of ?? T cells is limited in the recipient primate, resulting in resulting in an increase in the magnitude and duration of inflammation and in the magnitude and duration of antigen presentation by the cellular vaccine.

Abstract: The present invention relates to methods of inducing a T-cell response against a EGFRvIII in a subject. These method comprise administering to a subject a composition which expresses at least one immunogenic polypeptide, the amino acid sequence of which comprise a plurality of EGFRvIII polypeptide sequences, the sequence of which each comprise EEKKGNYV (SEQ ID NO: 3), and/or administering the polypeptide itself.

Abstract: It is disclosed herein that viruses coated in silica retain infectivity and the capacity to induce an immune response in an infected host. In addition, silicified virus is remarkably resistant to desiccation. Provided herein are methods of inducing a virus-specific immune response in a subject by administering to the subject an effective amount of silicified virus or silicified virus particles. Methods of enhancing a virus-specific cell-mediated immune response (such as a T cell-mediated immune response) in a subject by administering to the subject a silicified virus or silicified virus particles are also described herein. Further provided are immunogenic compositions comprising silicified virus or silicified virus particles, such as compositions useful as vaccines. The immunogenic compositions include a pharmaceutically acceptable carrier and/or an adjuvant.

Abstract: The present invention relates to methods of inducing a T-cell response against a EGFRvIII in a subject. These method comprise administering to a subject a composition which expresses at least one immunogenic polypeptide, the amino acid sequence of which comprise a plurality of EGFRvIII polypeptide sequences, the sequence of which each comprise EEKKGNYV (SEQ ID NO: 3), and/or administering the polypeptide itself.

Abstract: The present invention relates to methods of inducing a T-cell response against a EGFRvIII in a subject. These method comprise administering to a subject a composition which expresses at least one immunogenic polypeptide, the amino acid sequence of which comprise a plurality of EGFRvIII polypeptide sequences, the sequence of which each comprise EEKKGNYV (SEQ ID NO: 3), and/or administering the polypeptide itself.

Abstract: Provided are reagents and methods for administering an attenuated bacterium for use in treating a cancerous or infectious condition. Reagents and methods for administering an attenuated bacterium for use in inducing an immune response against a tumor, cancer cell, or infective agent are further provided. Also provided are methods of diagnosis and kits.

Abstract: Provided are reagents and methods for administering an attenuated bacterium and a binding compound for treating a cancerous or infectious condition, where the binding compound comprises an antibody or an antigen binding site derived from an antibody.

Abstract: A sample carrier system (1) with spatially adjustable configuration provides variable positioning as to the relative location of a plurality of sample containment elements (1). In a preferred embodiment, a slidably reconfigurable sampling system in which a matrix type, row-by-row arrangement of receptacles or sample retention elements (1) for specimen carriers such as cuvettes, test tubes and beakers, or the like (40), or for samples (41), may be reconfigured into a substantially linear arrangement of individual specimen carriers along with the entrained material contents, providing more accurate testing processes and more reliable test results.

Abstract: Free-living microbes are provided in which the nucleic acid has been modified so that the microbe is attenuated for proliferation and/or which comprise genetic mutations that attenuate the ability of the microbe to repair its nucleic acid. Methods of using the modified microbes for the loading, activation, and/or maturation of antigen-presenting cells are also provided. Vaccine compositions comprising the modified microbes and/or the antigen-presenting cells and methods of using the vaccines are also provided. The microbes may be further modified to include heterologous antigens, such as tumor antigens or infectious disease antigens, for use as a vaccine against cancer or infectious diseases.