The Rabies lyssavirus glycoprotein (RABV-G) is largely responsible for the neuroinvasiveness of the virus and the induction of antiviral immune responses. To study the effects of RABV-G we compared the G of the attenuated RABV variant SPBN with that of the pathogenic DOG4 strain. Infection via the olfactory route caused 100% mortality in mice with both virus variants. Of note, with the attenuated SPBN, progression of the disease was accelerated, microglia response less pronounced and IL-6 expression higher than in the presence of RABV-G from the pathogenic DOG4. However, while virus spread was less extensive, viral gene expression in individual neurons was actually higher in SPBN-infected brains without causing apoptosis of infected neurons. These differences between the two variants were not observed in infected neuronal cultures indicating that the effects of RABV-G on virus spread and viral gene expression depend on factors only present in the intact brain.
Keywords: Apoptosis; Cytokine; Immune response; Microglia; Neuroinvasiveness; Neuropathology; Neurotropism; Rabies lyssavirus glycoprotein; Viral spread.
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