The pathogenicity of the avirulent, demyelinating A7 strain of Semliki Forest virus (SFV) and the virulent SFV4 strain (derived from an infectious clone) for the central nervous system of adult BALB/c mice following intranasal infection was compared. The techniques used included immunocytochemistry using anti-SFV antibody and antibodies to cell markers, in situ hybridization (ISH) using a biotinylated cDNA probe specific for SFV, and immunocytochemistry/ISH double labelling. Whereas SFV4 was lethal at 4 days post-infection, A7-infected mice appeared normal at all times. Neuronal necrosis in the pyriform cortex was present in both infections, but developed sooner and was more severe following infection with SFV4 than with A7. Intact neurons and putative oligodendrocytes contained viral RNA and virus-specific antigen in SFV4 infected mice; viral RNA but not virus-specific antigen was detected in similar cells in A7-infected mice. These results confirm that SFV4 and A7 share similar cell tropisms for the murine central nervous system, but differ in the severity and rate of development of cytolytic damage. Intranasal infection is an efficient monitoring system for studies of the molecular basis of pathogenicity of SFV infection in mice.
The A7 strain of Semliki Forest virus induces rapid fetal death in pregnant mice, whereas the ts22 mutant derived from it is teratogenic for a proportion of fetuses. Both A7 and ts22 induce viremia and infect the central nervous systems and fetuses of pregnant mice. Using immunogold-silver staining, a cDNA probe for a Semliki Forest virus nonstructural sequence, and a riboprobe derived from the same sequence, we showed that the skin and musculoskeletal systems of fetuses from mothers infected with ts22 were often heavily infected but the central nervous systems were not labeled before day 17 of pregnancy. Damage to the neural tube, including open-neural-tube defects, was detected in fetuses following infection of the mother at days 8 and 10 of pregnancy with both A7 and ts22. For ts22, neural tube damage induced by fetal infection before day 17 of pregnancy appeared to be indirect and caused by virus infection of mesenchymal cells surrounding the developing neural tube.
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