Abstract

Given the failure of the existing approaches to control TB, it is imperative that improved strategies be developed for prevention. A panoply of M. tb. constituents that are targets of the humoral and cellular immune responses have been identified; approaches to determine which are potentially protective in humans are yet to be defined. To address this gap, this proposal is submitted by Drs. Ellner, Wallis, Boom, Stover, and Lathigra, investigators with complementary expertise in human in vitro model systems of the cellular immune response to mycobacteria; identification and characterization of mycobacterial targets of the human T-cell response; and cloning and expression of the relevant microbial genes and their introduction and expression in recombinant organisms. Working closely with leading researchers studying animal models of protective immunity, the goals of this consortium are three-fold: to develop a novel in vitro human model system that can predict which among characterized M. tb. antigens is/are likely to be potentially protective; to corroborate this prediction by demonstrating that rBCG organisms expressing the putative protective antigen show greater susceptibility to intracellular killing by the fully competent cellular immune response; and, ultimately, to seek confirmatory data in animal systems for mutual validation of the in vitro and in vivo models as predictive of protective immunity, and to confirm the status of the selected antigens as vaccine candidates.
The Specific Aims are: 1. To develop an in vitro assay of T- cell dependent activation of monocytes (MN) to kill M. tb. as a model of protective immunity; to identify T-cell subpopulations and cytokines critical to this process; and to adapt the model to optimize screening of available and newly-defined antigens. Antigens of particular interest include the 30 kD alpha antigen (alpha-ag), the """"""""P1"""""""" antigen, a target of the local immune response in tuberculous pleurisy, and the 58 kD MN- stimulatory protein; and, 2. To select antigens that are most stimulatory of T-cell dependent MN activation for cloning and expression as chimeric antigens in rBCG; then, to assess whether over-expression of the putative protective antigen(s) is associated with diminished capacity for intracellular survival in the presence of immune T-cells. Antigens defined in this in vitro model as likely to be protective will be studied both as vaccines (protein, subunit, and recombinant) for induction of protective immunity in guinea pigs and mice. Once validated, this approach will provide extensive data concerning the likely efficacy of currently defined mycobacterial products as vaccines and establish a paradigm for the study of future promising vaccine candidates.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of Allergy and Infectious Diseases (NIAID)
Type
Research Project (R01)
Project #
5R01AI035207-05
Application #
2442580
Study Section
Special Emphasis Panel (SRC (35))
Project Start
1993-09-30
Project End
1999-06-30
Budget Start
1997-07-01
Budget End
1999-06-30
Support Year
5
Fiscal Year
1997
Total Cost
Indirect Cost

  Institution

Name
Case Western Reserve University
Department
Internal Medicine/Medicine
Type
Schools of Medicine
DUNS #
077758407
City
Cleveland
State
OH
Country
United States
Zip Code
44106

  Publications

Chen, P; Ruiz, R E; Li, Q et al. (2000) Construction and characterization of a Mycobacterium tuberculosis mutant lacking the alternate sigma factor gene, sigF. Infect Immun 68:5575-80
Jackson, M; Raynaud, C; Laneelle, M A et al. (1999) Inactivation of the antigen 85C gene profoundly affects the mycolate content and alters the permeability of the Mycobacterium tuberculosis cell envelope. Mol Microbiol 31:1573-87
Jackson, M; Phalen, S W; Lagranderie, M et al. (1999) Persistence and protective efficacy of a Mycobacterium tuberculosis auxotroph vaccine. Infect Immun 67:2867-73
Camacho, L R; Ensergueix, D; Perez, E et al. (1999) Identification of a virulence gene cluster of Mycobacterium tuberculosis by signature-tagged transposon mutagenesis. Mol Microbiol 34:257-67
Silver, R F; Li, Q; Boom, W H et al. (1998) Lymphocyte-dependent inhibition of growth of virulent Mycobacterium tuberculosis H37Rv within human monocytes: requirement for CD4+ T cells in purified protein derivative-positive, but not in purified protein derivative-negative subjects. J Immunol 160:2408-17
Zaffran, Y; Zhang, L; Ellner, J J (1998) Role of CR4 in Mycobacterium tuberculosis-human macrophages binding and signal transduction in the absence of serum. Infect Immun 66:4541-4
Triccas, J A; Parish, T; Britton, W J et al. (1998) An inducible expression system permitting the efficient purification of a recombinant antigen from Mycobacterium smegmatis. FEMS Microbiol Lett 167:151-6
Berthet, F X; Lagranderie, M; Gounon, P et al. (1998) Attenuation of virulence by disruption of the Mycobacterium tuberculosis erp gene. Science 282:759-62
Silver, R F; Li, Q; Ellner, J J (1998) Expression of virulence of Mycobacterium tuberculosis within human monocytes: virulence correlates with intracellular growth and induction of tumor necrosis factor alpha but not with evasion of lymphocyte-dependent monocyte effector functions. Infect Immun 66:1190-9
Prod'hom, G; Lagier, B; Pelicic, V et al. (1998) A reliable amplification technique for the characterization of genomic DNA sequences flanking insertion sequences. FEMS Microbiol Lett 158:75-81

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