SummaryEpisomal expression of Leishmania histone H1 sense mRNAs in Leishmania major promasigotes was found previously to result in overexpression of this molecule and to reduce parasite infectivity in vitro . Herein, we evaluated the in vivo infectivity of these transfectants, in BALB/c mice, and showed that it is dramatically reduced. No lesions were observed in this group of mice and this was associated with an extremely low number of parasites both in the footpad and in the draining lymph nodes. Interestingly, the transfectants-reduced infectivity was associated with a delay in their cell-cycle progression and differentiation to axenic amastigotes, assessed in vitro . Therefore, the dramatic reduction in their infectivity may be attributed to the above-mentioned phenotypic modifications. As the metazoan linker histone H1 0 homologue is known to delay cell-cycle progression in mammalian cells we investigated whether its Leishmania counterpart, which possesses homology to its C-terminal region, when expressed in mammalian cells may also affect their cell-cycle progression. It was thus shown that Leishmania histone H1 expressed in COS7 and NIH 3T3 cells, delays cell-cycle progression in these cells too. The latter strengthens the phenotype observed in Leishmania and provides evidence that critical functions of histone H1 molecules are conserved throughout evolution.
We previously established that Leishmania promastigotes express a transferrin receptor and that iron chelators inhibit promastigote growth in vitro. Thus, we were interested in modulating the vertebrate host iron pool and to monitor whether such changes will affect the outcome of L. major infection in BALB / c mice, inoculated in the footpad with 106 stationary phase promastigotes. Treatment of mice with desferrioxamine resulted in a slight delay of the development of cutaneous lesions. In contrast and unexpectedly, systemic iron delivery, at early time points of parasite delivery, significantly limited footpad pathology. Accordingly, parasite loads at the site of parasite delivery, the draining lymph node, liver and spleen were significantly reduced in iron‐loaded mice. Importantly, the "protective" effect of iron delivery correlated with the presence, at the site of inoculation, of lower levels of IL‐4 and IL‐10 transcripts while both IFN‐γ and inducible nitric oxide synthase transcripts were at higher levels. The presence of more type 1 cytokine transcripts was further supported by the increased levels of IgG2a in their sera. These data strongly suggest that susceptibility to L. major as assessed in the footpad model is modifiable by interventions that alter the iron status of the host at early time points of parasite delivery.
Current treatments for leishmaniasis are unsatisfactory due to their route of administration, toxicity and expense but, most importantly, to the developed resistance of Leishmania to first-line drugs. Therefore, the identification of new effective targeted drugs is an urgent need. Since many studies have shown that medicinal plants contain compounds active against protozoa we have undertaken a study aiming to determine the antileishmanial activity of the taxoid 10-deacetylbaccatin III, isolated from dried needles and small branches of the European yew tree (Taxus baccata). Interestingly, 10-deacetylbaccatin III was found to selectively inhibit the growth of L. DONOVANI intracellular amastigotes within J774 murine macrophages in vitro at nanomolar concentrations with an IC(50) value of 70 nM. Concentrations of 10-deacetylbaccatin III as high as 5 microM did not affect J774 murine macrophages whereas 20 nM of taxol, used as a control, was toxic to macrophages. The compound also inhibited the growth of L. donovani promastigotes but at higher concentrations with a maximum level of inhibition of 35 %. Taxol inhibited promastigote growth at micromolar concentrations. Comparison of the effect of 10-deacetylbaccatin III to that of taxol on cell cycle progression and cellular morphology showed that their mechanisms of action are different. The 10-deacetylbaccatin III-treated promastigotes were slightly arrested in the G2/M phase whereas taxol-treated cells were blocked in the G2/M phase. In addition 10-deacetylbaccatin III treatment, contrary to taxol, did not affect cellular morphology.
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