The expression of HSP83 genes in Leishmania infantum is affected by temperature and by stage-differentiation and is regulated at the levels of mRNA stability and translation.

BACKGROUND: Exposure of Leishmania promastigotes to the temperature of their mammalian hosts results in the induction of a typical heat shock response. It has been suggested that heat shock proteins play an important role in parasite survival and differentiation. RESULTS: Here we report the studies on the expression of the heat shock protein 83 (HSP83) genes of Leishmania infantum. Confirming previous observations for other Leishmania species, we found that the L. infantum HSP83 transcripts also show a temperature-dependent accumulation that is controlled by a post-transcriptional mechanism involving sequences located in the 3'-untranslated region (3'-UTR). However, contrary to that described for L. amazonensis, the accumulation of the HSP83 transcripts in L. infantum is dependent on active protein synthesis. The translation of HSP83 transcripts is enhanced during heat shock and, as first described in L. amazonensis, we show that the 3'-UTR of the L. infantum HSP83 gene is essential for this translational control. Measurement of the steady-state levels of HSP83 transcripts along the promastigote-to-amastigote differentiation evidenced a specific profile of HSP83 RNAs: after an initial accumulation of HSP83 transcripts observed short after (2 h) incubation in the differentiation conditions, the amount of HSP83 RNA decreased to a steady-state level lower than in undifferentiated promastigotes. We show that this transient accumulation is linked to the presence of the 3'-UTR and flanking regions. Again, an 8-fold increase in translation of the HSP83 transcripts is observed short after the initiation of the axenic differentiation, but it is not sustained after 9 h. CONCLUSIONS: This transient expression of HSP83 genes could be relevant for the differentiation of Leishmania, and the underlying regulatory mechanism may be part of the developmental program of this parasite.

Antigenic properties of the Leishmania infantum GRP94 and mapping of linear B-cell epitopes.

In this study, we show that the glucose-regulated protein 94 (GRP94) from Leishmania infantum is a major target for humoral immune response during both visceral (VL) and mucocutaneous leishmaniasis (MCL). Also, the time-course of appearance of anti-GRP94 antibodies along the infection was analysed in hamsters (Mesocricetus auratus) experimentally infected with L. infantum. Remarkably, the reactivity against the Leishmania GRP94 was observed very soon after challenge, at the time of appearance of a humoral response against Leishmania total proteins, and long before that the animals develop clinical symptoms of disease. Therefore, at least for golden hamsters, the reactivity against Leishmania GRP94 is an early marker of infection. Using a collection of synthetic peptides covering the complete sequence of the L. infantum GRP94, we have determined the main linear antigenic determinants recognised by sera from humans, dogs, and hamsters suffering from VL. Four synthetic peptides, located in highly divergent regions of the protein, were found to be immunodominants and recognised by VL sera of these three different origins. We discuss that the prominent antigenicity of Leishmania GRP94 may be related to recent findings involving GRP94, and other heat shock proteins, in relevant immune functions such as tumour immunogenicity and antigen presentation.