C L Grisso scite author profile

Snmm~'ySeveral mycobacterial antigens, identified by monoclonal antibodies and patient sera, have been found to be homologous to stress or heat-shock proteins (hsp) defined in Escherichia coli and yeast. A major antigen recognized by most Mycobacterium leprae-reactive human T cell lines and cell wail-reactive T cell clones is a 10-kD protein that has now been cloned and sequenced. The predicted amino acid sequence of this protein is 44% homologous to the hsp 10 (GroES) of E. coll. The purified native and recombinant 10-kD protein was found to be a stronger stimulator of peripheral blood T cell proliferation than other native and recombinant M. l~rae proteins tested. The degree of reactivity parallded the response to intact M. leprae throughout the spectrum of leprosy. Limiting-dilution analysis of peripheral blood lymphocytes from a patient contact and a tuberculoid patient indicated that approximately one third ofM./e~e-reactive T cell precursors responded to the 10-kD antigen. T ceU lines derived from lepromin skin tests were strongly responsive to the 10-kD protein. T cell clones reactive to both the purified native and recombinant 10-kD antigens recognized M. l~rae-specific epitopes as well as epitopes crossreactive with the cognate antigen of M. tuberculosis. Further, the purified hsp 10 elicited strong ddayed-type hypersensitivity reactions in guinea pigs sensitized to M. leprae. The strong T ceil responses against the M. leprae 10-kD protein suggest a role for this heat-shock cognate protein in the protective/resistant responses to infection.

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T Lymphocytes in Human Tuberculosis

Barnes

Grisso²,

Abrams³

et al. 1992

Journal of Infectious Diseases

152

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The manifestations of tuberculous infection reflect the immune response to infection. Most healthy tuberculin reactors develop protective immunity; tuberculous pleuritis reflects a resistant response manifest by mild disease, whereas advanced pulmonary and miliary tuberculosis reflect ineffective immunity. The role of gamma delta T cells was assessed in tuberculous infection by evaluating expansion of these cells from blood mononuclear cells after stimulation with Mycobacterium tuberculosis. After culture in vitro, the percentages of gamma delta+ cells were significantly greater in patients with protective and resistant immunity (tuberculin reactors, 25% +/- 4%; tuberculous pleuritis, 30% +/- 7%) than in those with ineffective immunity (advanced pulmonary tuberculosis, 9% +/- 3%; miliary tuberculosis, 2% +/- 1%). In leprosy, expansion of gamma delta+ cells was greater in immunologically resistant tuberculoid patients (32% +/- 4%) than in Mycobacterium leprae-unresponsive lepromatous patients (9% +/- 2%). M. tuberculosis-reactive gamma delta T cell lines produced interferon-gamma, granulocyte-macrophage colony-stimulating factor, interleukin-3, and tumor necrosis factor-alpha, cytokines that activate macrophages and may contribute to mycobacterial elimination. These findings suggest that gamma delta T cells contribute to immune resistance against M. tuberculosis.

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Limited T-cell receptor beta-chain diversity of a T-helper cell type 1-like response to Mycobacterium leprae

Uyemura¹,

Ohmen²,

Grisso³

et al. 1992

Infect Immun

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The T cell receptors of human gamma delta T cells reactive to Mycobacterium tuberculosis are encoded by specific V genes but diverse V-J junctions.

Ohmen¹,

Barnes²,

Uyemura³

et al. 1991

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The observation that gamma delta T lymphocytes react to mycobacteria has provided an important model for investigation of these cells in the immune response to infection. One important question regarding human gamma delta T cells is the breadth of the T cell repertoire in response to specific pathogens. The present study was undertaken to characterize, in molecular terms, the mycobacterium-specific gamma delta TCR repertoire. Mononuclear cells were isolated from the peripheral blood and pleural fluid of patients with tuberculous pleuritis and stimulated with Mycobacterium tuberculosis in vitro. Cytofluorometric analysis of the expressed gamma delta TCR repertoire of M. tuberculosis expanded cells was performed using anti-V region antibodies. The majority of responding gamma delta T cells express a receptor composed of V delta 2 and V gamma 9 chains. Molecular analysis by PCR amplification confirmed use of the V delta 2 and V gamma 9 gene segments in these cells, and demonstrated predominant usage of J delta 1 and J gamma P gene segments. Analysis of nucleotide sequence at the V-J junctions revealed extensive diversity including nucleotide deletions of V, D, and J gene segments and nucleotide segment additions. The predicted amino acid sequences further indicates diversity in the V-J encoded region of the protein chains. The data indicate that M. tuberculosis-driven expansion of gamma delta T cells in vitro depends on specific pairing of the V delta 2 and V gamma 9 polypeptide chains, without apparent selection of explicit V-J junction regions.

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C L Grisso

A major T cell antigen of Mycobacterium leprae is a 10-kD heat-shock cognate protein.

T Lymphocytes in Human Tuberculosis

Limited T-cell receptor beta-chain diversity of a T-helper cell type 1-like response to Mycobacterium leprae

The T cell receptors of human gamma delta T cells reactive to Mycobacterium tuberculosis are encoded by specific V genes but diverse V-J junctions.

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