BACKGROUND: It is known that insects and crustaceans can carry simultaneous, active infections of two or more viruses without showing signs of disease, but it was not clear whether co-infecting viruses occupied the same cells or different cells in common target tissues. Our previous work showed that successive challenge of mosquito cell cultures followed by serial, split-passage resulted in stabilized cultures with 100% of the cells co-infected with Dengue virus (DEN) and an insect parvovirus (densovirus) (DNV). By addition of Japanese encephalitis virus (JE), we tested our hypothesis that stable, persistent, triple-virus co-infections could be obtained by the same process. RESULTS: Using immunocytochemistry by confocal microscopy, we found that JE super-challenge of cells dually infected with DEN and DNV resulted in stable cultures without signs of cytopathology, and with 99% of the cells producing antigens of the 3 viruses. Location of antigens for all 3 viruses in the triple co-infections was dominant in the cell nuclei. Except for DNV, this differed from the distribution in cells persistently infected with the individual viruses or co-infected with DNV and DEN. The dependence of viral antigen distribution on single infection or co-infection status suggested that host cells underwent an adaptive process to accommodate 2 or more viruses. CONCLUSIONS: Individual mosquito cells can accommodate at least 3 viruses simultaneously in an adaptive manner. The phenomenon provides an opportunity for genetic exchange between diverse viruses and it may have important medical and veterinary implications for arboviruses.
BACKGROUND: It is known that insects and crustaceans can carry simultaneous, active infections of two or more viruses without showing signs of disease, but it was not clear whether co-infecting viruses occupied the same cells or different cells in common target tissues. Our previous work showed that successive challenge of mosquito cell cultures followed by serial, split-passage resulted in stabilized cultures with 100% of the cells co-infected with Dengue virus (DEN) and an insect parvovirus (densovirus) (DNV). By addition of Japanese encephalitis virus (JE), we tested our hypothesis that stable, persistent, triple-virus co-infections could be obtained by the same process. RESULTS: Using immunocytochemistry by confocal microscopy, we found that JE super-challenge of cells dually infected with DEN and DNV resulted in stable cultures without signs of cytopathology, and with 99% of the cells producing antigens of the 3 viruses. Location of antigens for all 3 viruses in the triple co-infections was dominant in the cell nuclei. Except for DNV, this differed from the distribution in cells persistently infected with the individual viruses or co-infected with DNV and DEN. The dependence of viral antigen distribution on single infection or co-infection status suggested that host cells underwent an adaptive process to accommodate 2 or more viruses. CONCLUSIONS: Individual mosquito cells can accommodate at least 3 viruses simultaneously in an adaptive manner. The phenomenon provides an opportunity for genetic exchange between diverse viruses and it may have important medical and veterinary implications for arboviruses.
Authors: Ricardo Vancini; Angel Paredes; Mariana Ribeiro; Kevin Blackburn; Davis Ferreira; Joseph P Kononchik; Raquel Hernandez; Dennis Brown Journal: J Virol Date: 2011-12-14 Impact factor: 5.103
Authors: Qicheng Ma; Satyam P Srivastav; Stephanie Gamez; Gargi Dayama; Fabiana Feitosa-Suntheimer; Edward I Patterson; Rebecca M Johnson; Erik M Matson; Alexander S Gold; Douglas E Brackney; John H Connor; Tonya M Colpitts; Grant L Hughes; Jason L Rasgon; Tony Nolan; Omar S Akbari; Nelson C Lau Journal: Genome Res Date: 2021-01-08 Impact factor: 9.043
Authors: Agathe M G Colmant; Sonja Hall-Mendelin; Scott A Ritchie; Helle Bielefeldt-Ohmann; Jessica J Harrison; Natalee D Newton; Caitlin A O'Brien; Chris Cazier; Cheryl A Johansen; Jody Hobson-Peters; Roy A Hall; Andrew F van den Hurk Journal: PLoS Negl Trop Dis Date: 2018-10-24