RISC in Entamoeba histolytica: Identification of a Protein-Protein Interaction Network for the RNA Interference Pathway in a Deep-Branching Eukaryote

Entamoeba histolytica is a protozoan parasite that causes amebiasis in humans and is a major health concern in developing countries. Our previous work revealed a functional RNA interference (RNAi) pathway in Entamoeba. Several unusual features encompass the RNAi pathway in the parasite, including small RNAs (sRNAs) with a 5′-polyphosphate structure (identified to date only in Entamoeba and nematodes) and the conspicuous absence of a canonical Dicer enzyme. Currently, little is known about the Entamoeba RNA-induced silencing complex (RISC), which is critical in understanding how RNAi is achieved in the parasite. In this study, we examined the RISC of EhAgo2-2, the most highly expressed Argonaute protein in Entamoeba. We identified 43 protein components of EhAgo2-2 RISC with a broad range of functional activities. Two proteins with nucleosome assembly protein (NAP) domains, not previously observed in other RNAi systems, were identified as novel core members of amebic RISC. We further demonstrated the interaction of these NAPs with Ago using an in vitro recombinant system. Finally, we characterized the interaction network of five RISC components identified in this study to further elucidate the interactions of these RNAi pathway proteins. Our data suggest the presence of closely interacting protein groups within RISC and allowed us to build a map of protein-protein interactions in relation to Ago. Our work is the first to elucidate RISC components in Entamoeba and expands the current knowledge of RISC to a deep-branching single-celled eukaryote.