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Journal Article
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.
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.
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.
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., 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., 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.
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., 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.
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.
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.
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.
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.
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.
Flórido, M., & Appelberg, R. (2006). Genetic control of immune-mediated necrosis of Mycobacterium avium granulomas. Immunology, 118(1), 122 - 130.
Flórido, M., & Appelberg, R. (2004). Granuloma necrosis during Mycobacterium avium infection does not require tumor necrosis factor. Infection and Immunity, 72(10), 6139 - 6141.
Silva-Gomes, S., Appelberg, R., Larsen, R., Soares, M. P., & Gomes, M. S. (2013). Heme catabolism by heme oxygenase-1 confers host resistance to Mycobacterium infection. Infection and Immunity, 81(7), 2536 - 2545.
Fernandes, S. S., Nunes, A., Gomes, A. R., de Castro, B., et al. (2010). Identification of a new hexadentate iron chelator capable of restricting the intramacrophagic growth of Mycobacterium avium. Microbes and Infection, 12(4), 287 - 294.
Roque, S., Nobrega, C., Appelberg, R., & Correia-Neves, M. (2007). IL-10 underlies distinct susceptibility of BALB/c and C57BL/6 mice to Mycobacterium avium infection and influences efficacy of antibiotic therapy. Journal of Immunology, 178(12), 8028 - 8035.
Gomes-Pereira, S., Rodrigues, P. N., Appelberg, R., & Gomes, M. S. (2008). Increased susceptibility to Mycobacterium avium in hemochromatosis protein HFE-deficient mice. Infection and Immunity, 76(10), 4713 - 4719.
Pais, T. F., & Appelberg, R. (2004). Induction of Mycobacterium avium growth restriction and inhibition of phagosome-endosome interactions during macrophage during macrophage activation and apoptosis induction by picolinic acid plus IFNγ. Microbiology, 150(5), 1507 - 1518.
Resende, M., Cardoso, M. S., Ribeiro, A. R., Flórido, M., et al. (2017). Innate IFN-γ-Producing cells developing in the absence of IL-2 receptor common γ-chain. Journal of Immunology, 199(4), 1429 - 1439.
Vale-Costa, S., Gomes-Pereira, S., Teixeira, C. M., Rosa, G., et al. (2013). Iron Overload Favors the Elimination of Leishmania infantum from Mouse Tissues through Interaction with Reactive Oxygen and Nitrogen Species. PLoS Neglected Tropical Diseases, 7(2).
Cardoso, M. S., Silva, T. M., Resende, M., Appelberg, R., & Borges, M. (2015). Lack of the transcription factor hypoxia-inducible factor 1α (HIF- 1α) in macrophages accelerates the necrosis of Mycobacterium avium-induced granulomas. Infection and Immunity, 83(9), 3534 - 3544.
Castro, H., Teixeira, F., Romao, S., Santos, M., et al. (2011). Leishmania mitochondrial peroxiredoxin plays a crucial peroxidase-unrelated role during infection: Insight into its novel chaperone activity. PLoS Pathogens, 7(10).
Gomes, M. S., Flórido, M., Cordeiro, J. V., Teixeira, C. M., et al. (2004). Limited role of the Toll-like receptor-2 in resistance to Mycobacterium avium. Immunology, 111(2), 179 - 185.

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