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Journal Article
Appelberg, R., Moreira, D., Barreira-Silva, P., Borges, M., et al. (2015). The Warburg effect in mycobacterial granulomas is dependent on the recruitment and activation of macrophages by interferon-γ. Immunology, 145(4), 498 - 507.
Lousada, S., Flórido, M., & Appelberg, R. (2007). Virulence of Mycobacterium avium in mice does not correlate with resistance to nitric oxide. Microbial Pathogenesis, 43(5-6), 243 - 248.
Moreira-Teixeira, L., Sousa, J., McNab, F. W., Torrado, E., et al. (2016). Type i IFN inhibits alternative macrophage activation during mycobacterium tuberculosis infection and leads to enhanced protection in the absence of IFN-γ signaling. Journal of Immunology, 197(12), 4714 - 4726.
Carvalho, N. B., Oliveira, F. S., Durães, F. V., de Almeida, L. A., et al. (2011). Toll-like receptor 9 is required for full host resistance to Mycobacterium avium infection but plays no role in induction of Th1 responses. Infection and Immunity, 79(4), 1638 - 1646.
Nobrega, C., Cardona, P. - J., Roque, S., Pinto do Ó, P., et al. (2007). The thymus as a target for mycobacterial infections. Microbes and Infection, 9(14-15), 1521 - 1529.
Lousada, S., Flórido, M., & Appelberg, R. (2006). Regulation of granuloma fibrosis by nitric oxide during Mycobacterium avium experimental infection. International Journal of Experimental Pathology, 87(4), 307 - 315.
Appelberg, R. (2006). Pathogenesis of Mycobacterium avium infection: Typical responses to an atypical Mycobacterium?. Immunologic Research, 35(3), 179 - 190.
Appelberg, R. (2007). Neutrophils and intracellular pathogens: beyond phagocytosis and killing. Trends in Microbiology, 15(2), 87 - 92.
Rodrigues, P. N., Gomes, S. S., Neves, J. V., Gomes-Pereira, S., et al. (2011). Mycobacteria-induced anaemia revisited: A molecular approach reveals the involvement of NRAMP1 and lipocalin-2, but not of hepcidin. Immunobiology, 216(10), 1127 - 1134.
Borges, M., Barreira-Silva, P., Flórido, M., Jordan, M. B., et al. (2012). Molecular and cellular mechanisms of Mycobacterium avium-induced thymic atrophy. Journal of Immunology, 189(7), 3600 - 3608.
Campos, N., Magro, F., Castro, A. R., Cabral, J., et al. (2011). Macrophages from IBD patients exhibit defective tumour necrosis factor-α secretion but otherwise normal or augmented pro-inflammatory responses to infection. Immunobiology, 216(8), 961 - 970.
Appelberg, R. (2006). Macrophage nutriprive antimicrobial mechanisms. Journal of Leukocyte Biology, 79(6), 1117 - 1128.
Afonso-Barroso, A., Clark, S. O., Williams, A., Rosa, G. T., et al. (2013). Lipoarabinomannan mannose caps do not affect mycobacterial virulence or the induction of protective immunity in experimental animal models of infection and have minimal impact on in vitro inflammatory responses. Cellular Microbiology, 15(4), 660 - 674.
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.
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).
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.
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).
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.
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.
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.
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.
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.
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.
Flórido, M., & Appelberg, R. (2004). Granuloma necrosis during Mycobacterium avium infection does not require tumor necrosis factor. Infection and Immunity, 72(10), 6139 - 6141.


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