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A divergent insect-specific flavivirus that causes overt cytopathic effect in a mosquito cell-line

The genus Flavivirus (Flaviviridae) includes over seven dozen known enveloped viruses with ssRNA genomes, the evolution, geographic dispersion and epidemiology of which seems to have been shaped both by environmental constraints (involving ecological factors and human activities), and by their replication in vertebrate and invertebrate hosts. Most bona-fide flaviviruses have been classified as mosquito or tick-borne viruses, although for some no known invertebrate vector has yet been found. Over time, a divergent cluster including viral agents that seem to be specific of insect (Insect-Specific Flaviviruses-ISF) has been associated with the genus. The classification of ISF as flaviviruses is supported by their genomic organization, protein hydropathy plots, conserved polyprotein cleavage sites and enzyme domains, which are similar to those of classical flaviviruses. However, they are antigenically distinct, and share approximately the same level of nucleotide sequence identity with other members of the genus, as when compared to the members of the two other genera in the Flaviviridae family.

This work reports the initial characterization, including near full-length sequence analysis, of an ISF which seems to form a divergent lineage within the ISF radiation, as indicated by phylogenetic analysis based on ac multiple sequence alignment of the NS5 flavivirus coding sequence. This virus, tentatively designated OCFV (Ochlerotatus caspius flavivirus) was isolated from clarified macerates of a pool of Aedes (Ochlerotatuscaspius(Pallas, 1771) adult mosquitoes (lab code number 174) using the Ae. albopictus-derived C6/36 cell line. The mosquitoes from which OCFV was isolated were collected using CDC-traps baited with CO2, and are amongst those found in high densities in the coastal, and estuarine, districts of Setúbal and Faro. Detection of viral genomes by RT-PCR using RNA directly extracted from supernatants of C6/36 infected cultures, collected 24h post-infection, indicated that the virus replicates rapidly in these cells. Nevertheless, but as expected for an ISF, it does not replicate in Vero cells. Unexpectedly, unlike most ISF OCFV seems to cause overt cytopathic effect in C6/36 cells, which rapidly detach from a solid support and round-up soon (24-48h) after infection. Electron-microscope analysis of thin-sections of C6/36 cells at 48h post-infection with OCFV revealed nuclear hyperplasy, and an evident enlargement of the intracisternal space of the nuclear envelope, which is filled by multiple sized vesicles. In some cells, a complex network of apparent membrane trabeculae was also clearly evident. Viral particles seem to assemble at the endoplasmatic reticulum, from which viruses reach the cell surface by vesicular transport. Unexpectedly for a flavivirus, but as previously observed, viral particles also seem to gemulate directly from the cytoplasmic membrane.

A divergent insect-specific flavivirus that causes overt cytopathic effect in a mosquito cell-line

The genus Flavivirus (Flaviviridae) includes over seven dozen known enveloped viruses with ssRNA genomes, the evolution, geographic dispersion and epidemiology of which seems to have been shaped both by environmental constraints (involving ecological factors and human activities), and by their replication in vertebrate and invertebrate hosts. Most bona-fide flaviviruses have been classified as mosquito or tick-borne viruses, although for some no known invertebrate vector has yet been found. Over time, a divergent cluster including viral agents that seem to be specific of insect (Insect-Specific Flaviviruses-ISF) has been associated with the genus. The classification of ISF as flaviviruses is supported by their genomic organization, protein hydropathy plots, conserved polyprotein cleavage sites and enzyme domains, which are similar to those of classical flaviviruses. However, they are antigenically distinct, and share approximately the same level of nucleotide sequence identity with other members of the genus, as when compared to the members of the two other genera in the Flaviviridae family.

This work reports the initial characterization, including near full-length sequence analysis, of an ISF which seems to form a divergent lineage within the ISF radiation, as indicated by phylogenetic analysis based on ac multiple sequence alignment of the NS5 flavivirus coding sequence. This virus, tentatively designated OCFV (Ochlerotatus caspius flavivirus) was isolated from clarified macerates of a pool of Aedes (Ochlerotatuscaspius(Pallas, 1771) adult mosquitoes (lab code number 174) using the Ae. albopictus-derived C6/36 cell line. The mosquitoes from which OCFV was isolated were collected using CDC-traps baited with CO2, and are amongst those found in high densities in the coastal, and estuarine, districts of Setúbal and Faro. Detection of viral genomes by RT-PCR using RNA directly extracted from supernatants of C6/36 infected cultures, collected 24h post-infection, indicated that the virus replicates rapidly in these cells. Nevertheless, but as expected for an ISF, it does not replicate in Vero cells. Unexpectedly, unlike most ISF OCFV seems to cause overt cytopathic effect in C6/36 cells, which rapidly detach from a solid support and round-up soon (24-48h) after infection. Electron-microscope analysis of thin-sections of C6/36 cells at 48h post-infection with OCFV revealed nuclear hyperplasy, and an evident enlargement of the intracisternal space of the nuclear envelope, which is filled by multiple sized vesicles. In some cells, a complex network of apparent membrane trabeculae was also clearly evident. Viral particles seem to assemble at the endoplasmatic reticulum, from which viruses reach the cell surface by vesicular transport. Unexpectedly for a flavivirus, but as previously observed, viral particles also seem to gemulate directly from the cytoplasmic membrane.