Abstract: Provided herein is an in vitro granuloma model and methods of its use. Methods of detecting and/or diagnosing latent tuberculosis in a subject are also provided, as are latency-specific antigens (and antibodies thereto), such as ?-crystallin, and methods of identifying and using such molecules. Also provided are immunostimulatory compositions, for instance for use in eliciting an immune response in a subject, such as an immune response to a latent tuberculosis infection. Kits for carrying out the provided methods are also described.

Abstract: Provided herein is an in vitro granuloma model and methods of its use. Methods of detecting and/or diagnosing latent tuberculosis in a subject are also provided, as are latency-specific antigens (and antibodies thereto), such as &agr;-crystallin, and methods of identifying and using such molecules. Also provided are immunostimulatory compositions, for instance for use in eliciting an immune response in a subject, such as an immune response to a latent tuberculosis infection. Kits for carrying out the provided methods are also described.

Abstract: Genes isolated from Neisseria memingitidis, as well as isolated nucleic acids, probes, expression cassettes, polypeptides, antibodies, immunogenic compositions, antisense nucleic acids, amplification mixtures, and new invasion deficient swains of Neisseria meningitidis are provided Methods of detecting Neisseria meningitidis and Neisseria meningitidis nucleic acids, and methods of inhibiting the invasion of mammalian cells by Neisseria meningitidis are also provided.

Abstract: An isolated nucleic acid encoding a SecA protein of M. tuberculosis is provided. This nucleic acid can be a native coding sequence for the SecA protein of M. tuberculosis. A specific example of the isolated nucleic acid is one that encodes a polypeptide comprising the amino acid sequence set forth in SEQ ID NO:2. An isolated fragment of the secA gene that is specific for M. tuberculosis is provided. A purified SecA protein of Mycobacterium tuberculosis is provided. The purified SecA protein of Mycobacterium tuberculosis comprises the polypeptide having the sequence set forth in the Sequence Listing as SEQ ID NO:2. Fragments of the M. tuberculosis SecA protein are provided. A purified mutant SecA protein of Mycobacterium tuberculosis is provided. The invention provides purified mutant M. tuberculosis expressing the mutant SecA protein of the invention. The invention also provides methods of screening for putative M. tuberculosis virulence factors translocated by the SecA protein.

Abstract: The present invention provides an artificial organ system comprising an endothelial cell layer, an epithelial cell layer and an artificial microporous membrane, having pores therein, disposed between and in direct contact with the endothelial cell layer and the epithelial cell layer such that the membrane has an endothelial side and an epithelial side. The present invention also provides an artificial organ system contained in a vessel comprising an upper chamber into which the epithelial side faces and containing the epithelial cell layer, and a lower chamber into which the endothelial side faces and containing the endothelial cells. The present invention also provides an artificial lung system comprising an endothelial cell layer, an alveolar epithelial cell layer and an artificial microporous membrane, having pores therein, disposed between and in direct contact with the endothelial cell layer and the alveolar epithelial cell layer such that the membrane has an endothelial side and an epithelial side.

Abstract: The present invention provides an artificial organ system comprising an endothelial cell layer, an epithelial cell layer and an artificial microporous membrane disposed between and indirect contact with the endothelial cell layer and epithelial cell layer such that the membrane has an endothelial side and an epithelial side.