Early detection of Mycobacterium leprae infection is considered an important component of strategies aiming at reducing transmission of infection, but currently available diagnostic tools often lack sufficient sensitivity and specificity to reach this goal. Recent comparative genomics have revealed the presence of 165 M. leprae genes with no homologue in M. tuberculosis. We selected 17 of these genes for further study. All 17 genes were found to be expressed at the mRNA level in M. leprae from infected mice and from a multibacillary leprosy patient. Additional comparative genomic analyses of all currently available mycobacterial genome databases confirmed 12 candidate genes to be unique to M. leprae, whereas 5 genes had homologues in mycobacteria other than M. tuberculosis. Evaluation of the immunogenicity of all 17 recombinant proteins in PBMC from 127 Brazilians showed that five antigens (ML0576, ML1989, ML1990, ML2283, and ML2567) induced significant gamma interferon levels in paucibacillary leprosy patients, reactional leprosy patients, and exposed healthy controls but not in most multibacillary leprosy patients, tuberculosis patients, or endemic controls. Importantly, among exposed healthy controls 71% had no detectable immunoglobulin M antibodies to the M. leprae-specific PGL-I but responded to one or more M. leprae antigen(s). Collectively, the M. leprae proteins identified are expressed at the transcriptome level and can efficiently activate T cells of M. leprae-exposed individuals. These proteins may provide new tools to develop tests for specific diagnosis of M. leprae infection and may enhance our understanding of leprosy and its transmission.
Production of IFN-gamma guarantees helpful T cell-mediated immunity against Mycobacterium tuberculosis infection. We have evaluated the in vitro immune responses to M. tuberculosis antigens using IFN-gamma production among 43 Brazilian tuberculosis (TB) patients prior to and after specific treatment, and 18 community controls. Peripheral blood mononuclear cells (PBMC) were cultivated in the presence either of purified protein derivative, ferritin, 10 kDa, 38 kDa, MPT59, Ag85A or Ag85B. Also, the two M. tuberculosis and M. bovis heat-shock proteins (hsp) 65 and 70 kDa were compared, and 5 day supernatants were harvested for cytokine detection by ELISA. The results showed that the overall profile of primary PBMC in response to most M. tuberculosis antigens was well correlated, since high IFN-gamma levels were induced by Ag85A, Ag85B, 38 kDa, ferritin and 10 kDa, as well as M. tuberculosis hsp65 in TB patients. In addition, analysis was carried out of the in vitro expression of activation molecules on lymphocytes, as CD25 and CD69 expression assessed in 17 TB patients showed induction on CD4+ T cells by Ag85B. Overall, significantly low responses were found in untreated, in comparison with the treated TB patients. Furthermore, internal community but not healthy control individuals have higher immune responses than do TB patients.
SummaryMultidrug-resistant tuberculosis (MDR-TB) is known as having a poor prognosis with a weak response to therapy and very high death rates. The aim of this work was to assess the immune response to the RD1-encoded antigen ESAT-6 of Mycobacterium tuberculosis in MDR-TB patients and compare to non-resistant (NR) TB patients and healthy controls (HC). Evaluation of interferon (IFN)-g g g g production showed that, although 55% of the MDR patients were responsive to ESAT-6, they produced lower IFN-g g g g levels (553 ± ± ± ± 11 pg/ml) when compared to NR-TB (1179 ± ± ± ± 163 pg/ml; P < < < < 0·05) but not to controls (412 ± ± ± ± 65·7 pg/ml). Differences in the response to ESAT-6 and to its overlapping peptides mixture were also significant between MDR versus treated pulmonary NR-TB. Furthermore, a very low rate of response to PPD (23·5%) and to Ag85B (33·3%) was noted in MDR-TB patients as compared to the other groups. To determine the inflammatory response in patients' groups, detection of tumour necrosis factor (TNF)-a a a a was assessed in their sera before and during chemotherapy. Mean TNF-a a a a levels in MDR-TB (43·8 ± ± ± ± 9 pg/ml) paralleled those found in treated pulmonary, and it was significantly different ( P < < < < 0·05) from the values found in untreated NR and HC. Interestingly, secretion of IFN-g g g g and TNF-a a a a were predominant in MDR patients who presented with bilateral pulmonary lesions and lung cavitation. The present data indicate that the overall immune response to mycobacterial antigens is decreased in resistant TB and the major role inflammatory cytokines may play in perpetuating pulmonary tissue damage.
Introduction Cardiovascular surgery with cardiopulmonary bypass (CPB) has improved in past decades, but inflammatory activation in this setting is still unpredictable and is associated with several postoperative complications. Perioperative levels of macrophage migration inhibitory factor (MIF) and other inflammatory mediators could be implicated in adverse outcomes in cardiac surgery.
Using a short-term bulk culture protocol designed for an intracellularstaining method based on a flow cytometry approach to the frequencies of cytokine-producing cells from tuberculosis and leprosy patients, we found distinct patterns of T cell subset expression. The method also reveals the profile of peak cytokine production and can provide simultaneous information about the phenotype of cytokineproducing cells, providing a reliable assay for monitoring the immunity of these patients. The immune response of Mycobacterium leprae and purified protein derivative (PPD) in vitro to a panel of mycobacteria-infected patients from an endemic area was assessed in primary mononuclear cell cultures. The kinetics and source of the cytokine pattern were measured at the single-cell level. IFN-γ-, TNF-α-, IL-4-and IL-10-secreting T cells were intracytoplasmic evaluated in an attempt to identify M. leprae-and PPD-specific cells directly from the peripheral blood. The analysis by this approach indicated that TNF-α was the first (8 h) to be produced, followed by IFN-γ (16 h), IL-10 (20 h) and IL-4 (24 h), and double-staining experiments confirmed that CD4+ were a greater source of TNF-α than of CD8+ T cells (P < 0.05). Both T cell subsets secreted similar amounts of IFN-γ. We conclude that the protocol permits rapid evaluation of cytokine production by different T cell populations.
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