RNA aptamers developed against tRip: A preliminary approach targeting tRNA entry in Plasmodium.

Malaria is caused by Plasmodium parasites that multiply inside host cells and can be lethal when P. falciparum is involved. We identified tRip as a membrane protein that facilitates the import of exogenous transfer RNA (tRNA) into the parasite. tRip encompasses a tRNA binding domain exposed on the parasite surface. We used the SELEX approach to isolate high-affinity and specific tRip-binding RNA motifs from a library of random 25 nucleotide-long sequences. In five rounds of combined negative and positive selections, an enriched pool of aptamers was obtained; sequencing revealed that they were all different in their primary sequence; only by comparing their structure predictions did most of the selected aptamers reveal a conserved 5-nucleotide motif sequence. We showed that the integral motif is essential for tRip-binding while the rest of the molecule can be significantly reduced or mutated as long as the motif is presented in a single-stranded region. Such RNA aptamers bind in place of the original tRNA substrate and act as an efficient competitor, suggesting that they can block tRip function and slow parasite development. [Display omitted] • tRip is a conserved protein located on the surface of Plasmodium parasites. • tRip is a promising target for the development of new antimalarial drugs. • RNA aptamers were selected to interact specifically with tRip. • Most of the selected aptamers share a 5-nucleotide single-stranded motif. • The selected aptamers compete with tRNAs for binding to tRip. [ABSTRACT FROM AUTHOR]