Perfil de memória e ativação de linfócitos T na leishmaniose visceral

Visceral leishmaniasis (VL) in Brazil is a disease caused by Leishmania infantum chagasi (L.i.chagasi). The clinical evolution post-infection depends on the vertebrate host immune response, which is genetically mediated. This study aimed to evaluate the immune response of individuals living in endemic area for VL in the state of the Rio Grande do Norte, considering individuals with VL under treatment (n = 9), recovered VL <1 year post treatment (n = 10), > 10 years posttreatment (n = 9), uninfected individuals living in endemic areas (n = 7), individuals that lost DTH response (n=6) and asymptomatic individuals for VL (n=9). Peripheral blood cells were evaluated in the presence and absence of soluble Leishmania antigens (SLA) and ex vivo, to determine activation, presence of regulatory cells and memory cells. The Leishmania parasitemia and anti-Leishmania antibodies were determined respectively by qPCR and ELISA. Cells from individuals with VL under treatment showed less cell activation after stimulation with SLA for the markers CD4/CD69, CD8/CD69 and CD8/CD25 compared with VL post treatment treatment (p <0.001). Apparently uninfected individuals have a higher cell activation than symptomatic VL (p <0.001), with the exception of CD8/CD25 marker (p = 0.6662). On the other hand, in the ex-vivo group, significant differences were observed for CD4/CD69, CD8/CD69 and CD8/CD25 between the 4 groups due to increased cell activation present in cells of individuals symptomatic LV (p <0.001). VL cells under treatment, ex vivo, have a lower percentage of memory cells (CD4/CD45RO and CD8/CD45RO) than individuals VL post-treatment or control group (p = <0.01). Likewise, individuals with symptomatic VL have fewer regulatory cells when stimulated by SLA [CD4/CD25 (p = 0.0022) and CD4/FOXP3 (p = 0.0016)] and in the ex-vivo group (p = 0.0017). Finally, DNA isolated from recovered VL contained Leishmania DNA, supporting the hypothesis of non-sterile clinical cure for Leishmania infection. Recovered VL, even 10 years after treatment have high levels of memory cells, which may be due to the presence of stimulation, either by reexposure to Leishmania or non-sterile cure

Perfil imunológico associado à susceptibilidade, resistência e cura na infecção por Leishmania ( Leishmania ) infantum

Visceral Leishmaniasis (VL) is endemic in Brazil and the northeast region had the highest incidence of the disease , despite, in the last 30 years, it has spread to all geographic regions of the country. Leishmania infantum is the m ain etiological agent of VL in Latin America, Europe and North Africa. However, not all infected individuals develop the disease; in fact, the majority present spontaneous re solution of infection without symptoms. The evaluation of the immunological profil e has been mostly conducted stimulating, with Leishmania spp. antigen, peripheral blood mononuclear cells isolated from subjects with VL. These studies showed that VL patients had an inhibition of both, lymphocyte proliferation and proinflammatory response to Leishmania spp. antigen. Our study aimed to evaluate the immune response in active LV, cured post treatment and asymptomatic infection. To reach this aim, we analyzed immunophenotypic features related to activation, Treg and memory lymphocytes, by flow cytometry, as well as, evaluation of cytokine production, in ex vivo or in whole blood culture. In active VL volunteers, a longitu dinal study was conducted with reassessment at 4 and 14 months after clinical cure. The control group included individuals th at live d in endemic region and were either Positive Control, consisting of individuals with positive anti - L eishmania spp. serology and/or positive PCR for Leishmania  spp. and Negative Control composed by individuals with negative anti - Leishmania antibodie s serology and negative PCR for Leishmania . During VL, CD4 lymphocytes showed greater activation and memory profile s and were the major source of cytokines in culture when compared to CD8 lymphocytes , and these were not Leishmania specific. There were act ivated lymphocytes during VL (CD4 + CD69 + :4.9%) when compared to control groups, Positive (CD4 + CD69 + :1.96%, p=0.0045) and Negative (CD4 + CD69 + :1.35%, p=0.006), on the other hand, this was non - specific activation. The lymphocyte activation profile remain ed el evated even 14 months post treatmen t. A fter clinical cure , the activation was Leishmania specific (CD4 + CD25 + absence of SLA: 8.4%, and presence of SLA: 10.7% p=0.0279). CD8 + CD25 + lymphocytes were able to produce Leishmania specific IFN - γ in both, Positive Controls (absence of SLA 5.2% and presence of SLA: 9.5%, p=0.0391) and Cured 4 month (absence of SLA: 3.9%; presence of SLA: 10.7% p=0.0098). Whole blood culture cells, of VL patients, were able to produce IFN - γ, by SLA stimulation (absence of SLA: 28.0 pg ∕mL, and presence: 44.3 pg∕mL p=0.0020) as well as recovered groups (absence of SLA 2.3 pg∕mL and presence of SLA 139.8 pg∕mL, p=0.0005). However, the high level of IL - 10 seem ed to inhibit pro - inflammatory activity of IFN - γ and TNF - α during symptomatic dis ease . Unlike other pro - inflammatory cytokines, active VL group d id not produce Leishmania specific IL - 2 (absence of SLA 2.4 pg∕mL and presence of SLA: 2.6 pg∕mL). Based on these data we conclude that the restoration of lymphocyte activation and decreased i n IL - 10 Leishmania specific production were related to a protective immune profile.

Perfil de memória e ativação de linfócitos T na leishmaniose visceral

Visceral leishmaniasis (VL) in Brazil is a disease caused by Leishmania infantum chagasi (L.i.chagasi). The clinical evolution post-infection depends on the vertebrate host immune response, which is genetically mediated. This study aimed to evaluate the immune response of individuals living in endemic area for VL in the state of the Rio Grande do Norte, considering individuals with VL under treatment (n = 9), recovered VL <1 year post treatment (n = 10), > 10 years posttreatment (n = 9), uninfected individuals living in endemic areas (n = 7), individuals that lost DTH response (n=6) and asymptomatic individuals for VL (n=9). Peripheral blood cells were evaluated in the presence and absence of soluble Leishmania antigens (SLA) and ex vivo, to determine activation, presence of regulatory cells and memory cells. The Leishmania parasitemia and anti-Leishmania antibodies were determined respectively by qPCR and ELISA. Cells from individuals with VL under treatment showed less cell activation after stimulation with SLA for the markers CD4/CD69, CD8/CD69 and CD8/CD25 compared with VL post treatment treatment (p <0.001). Apparently uninfected individuals have a higher cell activation than symptomatic VL (p <0.001), with the exception of CD8/CD25 marker (p = 0.6662). On the other hand, in the ex-vivo group, significant differences were observed for CD4/CD69, CD8/CD69 and CD8/CD25 between the 4 groups due to increased cell activation present in cells of individuals symptomatic LV (p <0.001). VL cells under treatment, ex vivo, have a lower percentage of memory cells (CD4/CD45RO and CD8/CD45RO) than individuals VL post-treatment or control group (p = <0.01). Likewise, individuals with symptomatic VL have fewer regulatory cells when stimulated by SLA [CD4/CD25 (p = 0.0022) and CD4/FOXP3 (p = 0.0016)] and in the ex-vivo group (p = 0.0017). Finally, DNA isolated from recovered VL contained Leishmania DNA, supporting the hypothesis of non-sterile clinical cure for Leishmania infection. Recovered VL, even 10 years after treatment have high levels of memory cells, which may be due to the presence of stimulation, either by reexposure to Leishmania or non-sterile cure