ABSTRACT
A new microsporidian disease of the pond-reared ridgetail white prawn, Palaemon carinicauda, was found in China. Light microscopy, pathology, and scanning electron microscopy showed that the parasite infected the host's skeletal muscle tissue and formed spherical sporophorous vesicles (SPOVs). Electron microscopy revealed that its merogonic life stages developed in direct contact with the host cytoplasm. The sporogonic life stages underwent octosporoblastic sporogony with the formation of eight uninucleate spores in each SPOV. Fresh SPOVs were 5.4 ± 0.55 µm in diameter. The octospores were oval and measured 2.3 × 1.5 µm (fresh) and 1.96 × 1.17 µm (fixed). The isofilar polar filament was coiled with 9-10 turns and arranged in two rows. Phylogenetic analysis based on the SSU rRNA gene suggests that this microsporidium has close affinities with members of the genera Potaspora and Apotaspora, but represents an independent generic taxon. We therefore propose the establishment of a new genus and species (Paospora carinifang n. gen., n. sp.) within the family Spragueidae. We also propose a taxonomic revision to transfer Potaspora macrobrachium to this new genus and reclassify it as Paospora macrobrachium comb. nov.
ABSTRACT
IFITM proteins are a host restriction factor with broad-spectrum antiviral activity, but the role in the paramyxovirus entry remains unclear. Nipah virus (NiV) is a zoonotic virus of the paramyxoviridae with extremely high lethality. Here, we assessed the role of IFITM3 on NiV G and F glycoprotein-mediated virus entry. Using NiV pseudovirus bearing NiV G and F proteins to infect IFITM3-induced MDCK cells, we found that overexpression of IFITM3 promotes NiV G and F proteins-mediated virus entry. Mechanistically, the subcellular distribution showed that F protein completely co-localized with IFITM3, but G protein does not. Immunoprecipitation further indicated that IFITM3 strongly captures F protein rather than G protein. F protein truncation found that the F1 subunit completely co-localized and captures with IFITM3, but not the F2 subunit. Furthermore, IFITM3 strongly binds to F1 truncations containing fusion peptide (FP), and F1 strongly captures IFITM3 truncation with the intramembrane domain (IMD). Together, the results suggest that IFITM3 can promote NiV G and F proteins-mediated virus entry into MDCK cells, and IFITM3 directly interacts with the F1 subunit of NiV F protein dependent on the former's IMD and the latter's FP, which may occur after incorporation of fusion peptides into the cell membrane following virus fusion activation.