Hemoglobin degradation is crucial for the growth and survival of Plasmodium falciparum in human erythrocytes. Although the process of Hb degradation has been studied in detail, the mechanisms of Hb uptake remain ambiguous to date. Here, we characterized Heme Detoxification Protein (PfHDP); a protein localized in the parasitophorus vacuole, parasite food vacuole, and infected erythrocyte cytosol for its role in Hb uptake. Immunoprecipitation of PfHDP‐GFP fusion protein from a transgenic line using GFP trap beads showed the association of PfHDP with Hb as well as with the members of PTEX translocon complex. Association of PfHDP with Hb or Pfexp‐2, a component of translocon complex was confirmed by protein–protein interaction and immunolocalization tools. Based on these associations, we studied the role of PfHDP in Hb uptake using the PfHDP‐HA‐GlmS transgenic parasites line. PfHDP knockdown significantly reduced the Hb uptake in these transgenic parasites in comparison to the wild‐type parasites. Morphological analysis of PfHDP‐HA‐GlmS transgenic parasites in the presence of GlcN showed food vacuole abnormalities and parasite stress, thereby causing a growth defect in the development of these parasites. Transient knockdown of a member of translocon complex, PfHSP101 in HSP101‐DDDHA parasites also showed a decreased uptake of Hb inside the parasite. Together, these results advocate an interaction between PfHDP and the translocon complex at the parasitophorus vacuole membrane and also suggest a role for PfHDP in the uptake of Hb and parasite development. The study thus reveals new insights into the function of PfHDP, making it an extremely important target for developing new antimalarials.
Plasmodium genomes encode multiple RAP (RNA-binding domain abundant in Apicomplexan) domain proteins that contain a conserved module of 56 to 73 amino acids. Here, we characterized two of the P. falciparum RAP domain proteins; PfRAP291 & PfRAP070, for their expression and role at asexual blood stages. RNA binding assays and high-throughput CLIP-seq analysis showed that these proteins mainly bind ribosome associated RNAs. Blue-native PAGE and protein-protein interaction studies suggested association of these proteins with MSP-1 complex. Anti-PfRAP291 and anti-PfRAP070 antibodies showed moderate inhibitions in in-vitro merozoite invasion assays. Together, these results suggest multiple roles of these proteins; PfRAP291 and PfRAP070, in merozoite invasion and in ribosome regulation during asexual stages of the parasite.
Haemoglobin degradation is crucial for the growth and survival of Plasmodium falciparum in human erythrocytes. Although the process of Hb degradation has been studied in great detail, the mechanisms of Hb uptake remain ambiguous to date. Here, we characterized Heme Detoxification Protein (PfHDP), a protein localized in the parasitophorous vacuole, parasite food vacuole and infected erythrocyte cytosol for its role in Hb uptake. Immunoprecipitation of PfHDP-GFP fusion protein from a transgenic line using anti-GFP antibody and of Plasmodium parasite extract using anti-human Hb antibodies respectively, showed the association of PfHDP/Hb with each other as well as with the members of PTEX translocon complex. Some of these associations such as PfHDP/Hb and PfHDP/Pfexp-2 interactions were confirmed by in vitro protein-protein interaction tools. To know the roles of PfHDP and translocon complex in Hb import into the parasites, we next studied the Hb uptake by the parasite in PfHDP knock-down line using the GlmS ribozyme strategy. PfHDP knock-down significantly reduced the Hb uptake in these parasites in comparison to the wild type parasites. Further, the transient knock-down of one of the members of the translocon complex; PfHSP101 showed considerable reduction in Hb uptake. Morphological analysis of PfHDP-HA-GlmS transgenic parasites in the presence of GlcN showed food vacuole abnormalities and parasite stress, thereby causing a growth defect in the development of these parasites. Together, we implicate the translocon complex in the trafficking of PfHDP/Hb complex in the parasite and suggest a role for PfHDP in the uptake of Hb and parasite development. The study thus reveals new insights into the function of PfHDP, making it an extremely important target for developing new antimalarials.
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