RESUMEN
Following previous studies reporting microbiological diagnosis by flow cytometry, the possibility of using this method was examined to monitor infection of susceptible cell lines by a fixed rabies virus strain (Pasteur Virus strainPV) or a wild rabies virus strain (WRS). Suspensions of BHK-21 and C6 cells were infected with viruses and a time course of virus infection was established. Sequentially, at several time points, infected and control uninfected cells were fixed, permeabilized, and stained with a rabies virus-specific antibody conjugate. This was achieved by resuspending cells in a solution containing p-formaldehyde in FACS lysis fluid, which allowed the detection of intracellular virus with flourescein-coupled antibodies by flow cytometry. A Becton Dickinson FACSCalibur® flow cytometer was used to analyze the percentage of cells infected and the kinetics of the infection process was determined. As early as 12 h after inoculation with both rabies virus strains, significant levels (P<0.01) of infection (from 4.7 to 7.1%) were detected by flow cytometry. The maximum level of infection was obtained at 48 h in C6 cells (88%) with both viruses. The advantages of this method for examination of intracellular virus infection are discussed.
Asunto(s)
Citometría de Flujo , Rabia , Virus de la RabiaRESUMEN
The susceptibility of the C6 rat glioma line (ATCC; CCL-107) to rabies virus was characterized. The kinetics of infection performed with a fixed and a wild strain (from an infected cow) of rabies virus was monitored by direct immunofluorescence. Fluorescent cytoplasmic bodies were readily observed by UV microscopy from 24 hours post-infection (hpi) onwards. The ability of C6 to produce rabies infective virion particles was confirmed by determining the viral titres present in the supertants of infected cultures by both BHK-21 cell infection and mice inoculation C6 cells produced similar viral titres to those produced by BHK-21 for both strains used. In addition, the yield of rabies glycoprotein was assessed by ELISA. In general, BHK-21 and C6 cells infected either by PV or with the wild rabies strain produced similar amounts of rabies glycoprotein. At 96 hpi, however, when the glycoprotein production peaked, BHK-21 infected with the wild strain produced significantly higher amounts of glycoprotein than C6. Subsequently, the optimal conditions for isolation of wild rabies virus strains from C6 cells were established and these proved to be as sensitive as NA cells in detecting 10 wild rabies samples. Due to the high sensitivity exhibited, C6 rat glioma cells present a new useful system for rabies virus investigation.