Mohammad Imran Siddiqi scite author profile

Apicomplexan protists such as Plasmodium and Toxoplasma contain a mitochondrion and a relic plastid (apicoplast) that are sites of protein translation. Although there is emerging interest in the partitioning and function of translation factors that participate in apicoplast and mitochondrial peptide synthesis, the composition of organellar ribosomes remains to be elucidated. We carried out an analysis of the complement of core ribosomal protein subunits that are encoded by either the parasite organellar or nuclear genomes, accompanied by a survey of ribosome assembly factors for the apicoplast and mitochondrion. A cross-species comparison with other apicomplexan, algal and diatom species revealed compositional differences in apicomplexan organelle ribosomes and identified considerable reduction and divergence with ribosomes of bacteria or characterized organelle ribosomes from other organisms. We assembled structural models of sections of Plasmodium falciparum organellar ribosomes and predicted interactions with translation inhibitory antibiotics. Differences in predicted drug–ribosome interactions with some of the modelled structures suggested specificity of inhibition between the apicoplast and mitochondrion. Our results indicate that Plasmodium and Toxoplasma organellar ribosomes have a unique composition, resulting from the loss of several large and small subunit proteins accompanied by significant sequence and size divergences in parasite orthologues of ribosomal proteins.

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Visceral Leishmaniasis: Advancements in Vaccine Development via Classical and Molecular Approaches

Joshi

Rawat

Yadav

et al. 2014

Front. Immunol.

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Visceral leishmaniasis (VL) or kala-azar, a vector-borne protozoan disease, shows endemicity in larger areas of the tropical, subtropical and the Mediterranean countries. WHO report suggested that an annual incidence of VL is nearly 200,000 to 400,000 cases, resulting in 20,000 to 30,000 deaths per year. Treatment with available anti-leishmanial drugs are not cost effective, with varied efficacies and higher relapse rate, which poses a major challenge to current kala-azar control program in Indian subcontinent. Therefore, a vaccine against VL is imperative and knowing the fact that recovered individuals developed lifelong immunity against re-infection, it is feasible. Vaccine development program, though time taking, has recently gained momentum with the emergence of omic era, i.e., from genomics to immunomics. Classical as well as molecular methodologies have been overtaken with alternative strategies wherein proteomics based knowledge combined with computational techniques (immunoinformatics) speed up the identification and detailed characterization of new antigens for potential vaccine candidates. This may eventually help in the designing of polyvalent synthetic and recombinant chimeric vaccines as an effective intervention measures to control the disease in endemic areas. This review focuses on such newer approaches being utilized for vaccine development against VL.

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[Fe–S] cluster assembly in the apicoplast and its indispensability in mosquito stages of the malaria parasite

et al. 2017

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The relict plastid (apicoplast) of the malaria parasite is the site for important biochemical pathways and is essential for parasite survival. The sulfur mobilization (SUF) pathway of iron-sulfur [Fe-S] cluster assembly in the apicoplast of Plasmodium spp. is of interest due to its absence in the human host suggesting the possibility of antimalarial intervention through apicoplast [Fe-S] biogenesis. We report biochemical characterization of components of the Plasmodium falciparum apicoplast SUF pathway after the first step of SUF. In vitro interaction experiments and in vivo cross-linking showed that apicoplast-encoded PfSufB and apicoplast-targeted PfSufC and PfSufD formed a complex. The PfSufB-C -D complex could function as a scaffold to assemble [4Fe-4S] clusters in vitro and activity of the PfSufC ATPase was enhanced by PfSufD. Two carrier proteins, the NifU-like protein PfNfu and the A-type carrier PfSufA are homodimers, the former mediating transfer of [4Fe-4S] from the scaffold to a model [4Fe-4S] target protein with higher efficiency. Conditional knockout of SufS, the enzyme catalyzing the first step of SUF, by selective excision in the mosquito stages of Plasmodium berghei severely impaired development of sporozoites in oocysts establishing essentiality of the SUF machinery in the vector. Our results delineate steps of the complete apicoplast SUF pathway and demonstrate its critical role in the parasite life cycle.

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