Patients with American cutaneous leishmaniasis were studied before therapy (active lesion) and at the end of therapy (cured patients). Assays of lymphocyte proliferative responses of peripheral blood mononuclear cells induced in vitro by Leishmania braziliensis promastigote antigens (Lb) were performed. Antigen-stimulated cells were harvested for CD4 and CD8 phenotype analysis and the levels of gamma interferon (IFN-γ) and interleukin 4 (IL-4) produced were also determined in the culture supernatants. Two different patterns of Lbinduced T cell responses were observed: a) predominance of responding CD4 + cells and mixed type 1 and type 2 cytokine production (IFN-γ and IL-4) during the active disease, and b) similar proportions of responding CD4 + and CD8 + cells, and type 1 cytokine production (presence of IFN-γ and very low IL-4) at the end of therapy (healed lesions). This last pattern is probably associated with a beneficial T cell response.
Human localized cutaneous leishmaniasis (LCL), induced by Leishmania braziliensis, ranges from a clinically mild, self-healing disease with localized cutaneous lesions to severe forms which can present secondary metastatic lesions. The T cell-mediated immune response is extremely important to define the outcome of the disease; however, the underlying mechanisms involved are not fully understood. A flow cytometric analysis of incorporation of 7-amino actinomycin D and CD4 + or CD8 + T cell surface phenotyping was used to determine whether different frequencies of early apoptosis or accidental cell death occur at different stages of LCL lesions. When all cells obtained from a biopsy sample were analyzed, larger numbers of early apoptotic and dead cells were observed in lesions from patients with active disease (mean = 39.5 ± 2.7%) as compared with lesions undergoing spontaneous healing (mean = 17.8 ± 2.2%). Cells displaying normal viability patterns obtained from active LCL lesions showed higher numbers of early apoptotic events among CD8 + than among CD4 + T cells (mean = 28.5 ± 3.8 and 15.3 ± 3.0%, respectively). The higher frequency of cell death events in CD8 + T cells from patients with LCL may be associated with an active form of the disease. In addition, low frequencies of early apoptotic events among the CD8 + T cells were observed in two patients with self-healing lesions. Although the number of patients in the latter group was small, it is possible to speculate that, during the immune response, differences in apoptotic events in CD4 + and CD8 + T cell subsets could be responsible for controlling the CD4/CD8 ratio, thus leading to healing or maintenance of disease.
Correspondence
Based on current studies on the effects of single dose vaccines on antibody production, Latin American countries have adopted a single dose vaccine program. However, no data are available on the activation of cellular response to a single dose of hepatitis A. Our study investigated the functional reactivity of the memory cell phenotype after hepatitis A virus (HAV) stimulation through administration of the first or second dose of HAV vaccine and compared the response to that of a baseline group to an initial natural infection. Proliferation assays showed that the first vaccine dose induced HAV-specific cellular response; this response was similar to that induced by a second dose or an initial natural infection. Thus, from the first dose to the second dose, increase in the frequencies of classical memory B cells, TCD8 cells, and central memory TCD4 and TCD8 cells were observed. Regarding cytokine production, increased IL-6, IL-10, TNF, and IFNγ levels were observed after vaccination. Our findings suggest that a single dose of HAV vaccine promotes HAV-specific memory cell response similar to that induced by a natural infection. The HAV-specific T cell immunity induced by primary vaccination persisted independently of the protective plasma antibody level. In addition, our results suggest that a single dose immunization system could serve as an alternative strategy for the prevention of hepatitis A in developing countries.
An experimental investigation into the influence of artificially induced trauma in the production of leishmanial metastatic lesions and into the possible role played by Leishmania-reactive T cell populations in the metastatic process was carried out. Trauma was induced by incising a small cut into the shaved rump of Leishmania amazonensis-infected BALB/c mice. Ten days after the trauma, mice were killed to quantify the parasite load in the traumatic lesion or in the equivalent area in nontraumatized mice, by limiting dilution analysis. Results demonstrated that metastatic lesions occurred earlier in traumatized animals and that parasites could be detected sooner in traumatic lesions than in equivalent areas in nontraumatized mice. When lymph node cells from L. amazonensis antigen-immunized BALB/c mice were adoptively transferred intravenously to L. amazonensis-infected syngeneic mice, the parasite load in the metastatic lesions was greater in the animals that received La Ag-reactive T cells than in the controls. When CD4(+)- or CD8(+)-depleted T cell populations from La Ag-immunized mice were adoptively transferred to infected traumatized or nontraumatized animals, we observed that the metastatic lesions in CD4(+)-inoculated animals had a greater number of parasites than the lesions in mice from all other groups. Thus, a new and reliable mouse model for studying the mechanisms involved in leishmanial metastasis is described.
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