Publication FoxP3 provides competitive fitness to CD4⁺CD25⁺ T cells in leprosy patients via transcriptional regulation. Kumar S, Naqvi RA, Ali R, et al. European journal of immunology. 2014; 44 (2) : 431-9.
Publication FoxP3 provides competitive fitness to CD4(+) CD25(+) T cells in leprosy patients via transcriptional regulation. Kumar S, Naqvi RA, Ali R, et al. European journal of immunology. 2013;
Publication CD163 favors Mycobacterium leprae survival and persistence by promoting anti-inflammatory pathways in lepromatous macrophages. Moura D, Mattos KA, Amadeu TP, et al. European journal of immunology. 2012; 42 (11) : 2925-36.
Publication Impaired maturation and function of dendritic cells by mycobacteria through IL-1beta. Makino M, Maeda Y, Mukai T, et al. European journal of immunology. 2006; 36 (6) : 1443-52.
Publication Oxidative-stress-induced T lymphocyte hyporesponsiveness is caused by structural modification rather than proteasomal degradation of crucial TCR signaling molecules. Cemerski S, Van Meerwijk JP M, Romagnoli P. European journal of immunology. 2003; 33 (8) : 2178-85.
Publication HLA-DQ molecules and the control of Mycobacterium leprae-specific T cell nonresponsiveness in lepromatous leprosy patients. Ottenhoff T H, Walford C, Nishimura Y, et al. European journal of immunology. 1990; 20 (10) : 2347-50.
Publication Mycobacterial-induced cytotoxic T cells as well as nonspecific killer cells derived from healthy individuals and leprosy patients. Kaleab B, Ottenoff T, Converse P, et al. European journal of immunology. 1990; 20 (12) : 2651-9.
Publication Human suppressor T cell clones lack CD28. Li S G, Ottenhoff T H, Elsen P, et al. European journal of immunology. 1990; 20 (6) : 1281-8.
Publication DR3-restricted T cells from different HLA-DR3-positive individuals recognize the same peptide (amino acids 2-12) of the mycobacterial 65-kDa heat-shock protein. Schooten W C, Elferink D G, Embden J, et al. European journal of immunology. 1989; 19 (11) : 2075-9.
Publication T cell responses to fractionated Mycobacterium leprae antigens in leprosy. The lepromatous nonresponder defect can be overcome in vitro by stimulation with fractionated M. leprae components. Ottenhoff T H, Converse P J, Gebre N, et al. European journal of immunology. 1989; 19 (4) : 707-13.
Publication Characterization of a novel myeloid antigen regulated during differentiation of monocytic cells. Cabañas C, Sanchez-Madrid F, Bellon T, et al. European journal of immunology. 1989; 19 (8) : 1373-8.
Publication Specific lysis by CD8+ T cells of Schwann cells expressing Mycobacterium leprae antigens. Steinhoff U, Kaufmann S H. European journal of immunology. 1988; 18 (6) : 969-72.
Publication T cell epitopes on the 36K and 65K Mycobacterium leprae antigens defined by human T cell clones. Schooten W C, Ottenhoff T H, Klatser P R, et al. European journal of immunology. 1988; 18 (6) : 849-54.
Publication T90/44 (9.3 antigen). A cell surface molecule with a function in human T cell activation. Lesslauer W, Koning F, Ottenhoff T, et al. European journal of immunology. 1986; 16 (10) : 1289-96.
Publication Inhibition of complement-dependent lymphocyte rosette formation: a possible test for activated complement products. Ezer G, Hayward A R. European journal of immunology. 1974; 4 (2) : 148-50.