HIV proteinase inhibitors target the Ddi1-like protein of Leishmania parasites.

HIV proteinase inhibitors reduce the levels of Leishmania parasites in vivo and in vitro, but their biochemical target is unknown. We have identified an ortholog of the yeast Ddi1 protein as the only member of the aspartic proteinase family in Leishmania parasites, and in this study we investigate this protein as a potential target for the drugs. To date, no enzyme assay has been developed for the Ddi1 proteins, but Saccharomyces cerevisiae lacking the DDI1 gene secrete high levels of protein into the medium. We developed an assay in which these knockout yeast were functionally complemented to low secretion by introduction of genes encoding Ddi1 orthologs from Leishmania major or humans. Plasmid alone controls gave no complementation. Treatment of the Ddi1 transformants with HIV proteinase inhibitors showed differential effects dependent on the origin of the Ddi1. Dose responses allowed calculation of IC(50) values; e.g., for nelfinavir, of 3.4 µM (human Ddi1) and 0.44 µM (Leishmania Ddi1). IC(50) values with Leishmania constructs mirror the potency of inhibitors against parasites. Our results show that Ddi1 proteins are targets of HIV proteinase inhibitors and indicates the Leishmania Ddi1 as the likely target for these drugs and a potential target for antiparasitic therapy.

The retroviral proteinase active site and the N-terminus of Ddi1 are required for repression of protein secretion.

The Ddi1 protein of the yeast Saccharomyces cerevisiae is involved in numerous interactions with the ubiquitin system, which may be mediated by its N-terminal ubiquitin like domain and its C-terminal ubiquitin associated domain. Ddi1 also contains a central region with all the features of a retroviral aspartic proteinase, which was shown to be important in cell-cycle control. Here we demonstrate an additional role for this domain, along with the N-terminal region, in protein secretion. These results further substantiate the hypothesis that Ddi1 functions in vivo as a catalytically-active aspartic proteinase.