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Author Title [ Type(Asc)] Year
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Journal Article
Flórido, M., & Appelberg, R. (2006). Genetic control of immune-mediated necrosis of Mycobacterium avium granulomas. Immunology, 118(1), 122 - 130.
Flórido, M., Pearl, J. E., Solache, A., Borges, M., et al. (2005). Gamma interferon-induced T-cell loss in virulent Mycobacterium avium infection. Infection and Immunity, 73(6), 3577 - 3586.
Salomé Gomes, M., Fernandes, S. S., Cordeiro, J. V., Gomes, S. S., et al. (2008). Engagement of Toll-like receptor 2 in mouse macrophages infected with Mycobacterium avium induces non-oxidative and TNF-independent anti-mycobacterial activity. European Journal of Immunology, 38(8), 2180 - 2189.
Boelaert, J. R., Vandecasteele, S. J., Appelberg, R., & Gordeuk, V. R. (2007). The effect of the host's iron status on tuberculosis. Journal of Infectious Diseases, 195(12), 1745 - 1753.
Nobrega, C., Roque, S., Nunes-Alves, C., Coelho, A., et al. (2010). Dissemination of mycobacteria to the thymus renders newly generated T cells tolerant to the invading pathogen. Journal of Immunology, 184(1), 351 - 358.
Gobec, S., Plantan, I., Mravljak, J., Švajger, U., et al. (2007). Design, synthesis, biochemical evaluation and antimycobacterial action of phosphonate inhibitors of antigen 85C, a crucial enzyme involved in biosynthesis of the mycobacterial cell wall. European Journal of Medicinal Chemistry, 42(1), 54 - 63.
Flórido, M., McColl, S. R., & Appelberg, R. (2009). Delayed recruitment of lymphocytes into the lungs of CD30-deficient mice during aerogenic Mycobacterium avium infections. Immunobiology, 214(8), 643 - 652.
Borges, M., Rosa, G. T., & Appelberg, R. (2011). The death-promoting molecule tumour necrosis factor-related apoptosis inducing ligand (TRAIL) is not required for the development of peripheral lymphopenia or granuloma necrosis during infection with virulent Mycobacterium avium. Clinical and Experimental Immunology, 164(3), 407 - 416.
Flórido, M., Borges, M., Yagita, H., & Appelberg, R. (2004). Contribution of CD30/CD153 but not of CD27/CD70, CD134/OX40L, or CD137/4-1BBL to the optimal induction of protective immunity to Mycobacterium avium. Journal of Leukocyte Biology, 76(5), 1039 - 1046.
Flórido, M., Borges, M., Rodrigues, P., Vale-Costa, S., et al. (2009). Constitutive expression of Bcl-2 in the haematopoietic compartment alters the metabolism of iron and increases resistance to mycobacterial infection. Clinical and Experimental Immunology, 156(1), 61 - 68.
Flórido, M., & Appelberg, R. (2007). Characterization of the deregulated immune activation occurring at late stages of mycobacterial infection in TNF-deficient mice. Journal of Immunology, 179(11), 7702 - 7708.
Flórido, M., Gonçalves, A. S., Gomes, M. S., & Appelberg, R. (2004). CD40 is required for the optimal induction of protective immunity to Mycobacterium avium. Immunology, 111(3), 323 - 327.
Sonawane, A., Santos, J. C., Mishra, B. B., Jena, P., et al. (2011). Cathelicidin is involved in the intracellular killing of mycobacteria in macrophages. Cellular Microbiology, 13(10), 1601 - 1617.
Cruz, A., Torrado, E., Carmona, J., Fraga, A. G., et al. (2015). BCG vaccination-induced long-lasting control of Mycobacterium tuberculosis correlates with the accumulation of a novel population of CD4+IL-17+TNF+IL-2+ T cells. Vaccine, 33(1), 85 - 91.

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