A temperature-sensitive mutant of poliovirus type 1 altered in capsid assembly

Replication of two porcine parvovirus isolates at non-permissive temperatures

Previous studies have shown that replication in vitro of the porcine parvovirus (PPV) isolate, KBSH, was restricted at 39 degrees C but not at 37 degrees C. In contrast, replication of the Kresse isolate was restricted at 37 degrees C but not at 39 degrees C. In this study, Kresse and KBSH isolates were passaged up to ten times in swine testicle (ST) cells at non-permissive temperatures, and at subsequent passage viral protein synthesis, viral DNA synthesis, and progeny virus were evaluated. KBSH became adapted for replication at 39 degrees C upon serial passages, displaying an appreciable increase in viral progeny, viral polypeptides, and viral DNA concentration. This finding was also observed with Kresse virus isolate continuously passaged at 37 degrees C. Neither isolate became adapted for replication at 32 degrees C. In an attempt to examine the effect of in vitro passage at non-permissive temperatures on pathogenicity in swine, KBSH passaged 10 times either at 37 degrees C or 39 degrees C was inoculated into swine fetuses. Two of four fetuses inoculated with 39 degrees C-passaged KBSH were dead and hemorrhagic or mummified. All four fetuses inoculated with 39 degrees C-KBSH contained viral antigen and viral DNA. In contrast, fetuses inoculated with 37 degrees C-passaged KBSH, or with cell culture fluid were normal in appearance. Viral antigen and viral DNA were not demonstrated in fetuses inoculated with 37 degrees C-KBSH or cell culture fluids. These findings suggest the possibility that the ability to replicate at 39 degrees C is associated with virulence in swine fetuses.

A point mutation in the poliovirus polymerase gene determines a complementable temperature-sensitive defect of RNA replication

We have previously described the isolation of a RNA- temperature-sensitive (ts) mutant of poliovirus type 1, ts035, after chemical mutagenesis by 5-fluorouracil. The ts defect of ts035 correlated with defective RNA replication, since the two characters corevert in the case of spontaneous revertants. The alteration of a trans-acting replication function of ts035 was suggested by significant rescue following mixed infection with another ts mutant, ts221, or with wild-type virus. Protein synthesis appeared normal at 39 degrees (nonpermissive temperature) in shift-up experiments and no defect of RNA elongation was evidenced when the activity of replication complexes or purified polymerase was measured at 39 degrees. These results provide circumstantial evidence that the initiation of ts035 RNA synthesis at 39 degrees is impaired. Molecular cloning of the ts035 genome allowed us to construct a recombinant virus with the same ts phenotype as ts035, by the transfer of a fragment of the mutant polymerase gene into the wild-type genome. Two mutations were present in this region of the ts035 genome but the determination of nucleotide sequences in the case of ts035 revertants indicated that only the substitution from A to G at nucleotide 7256 was necessary for the ts phenotype. This mutation replaces Asn 426 by an Asp in polypeptide 3D, the viral polymerase.

Temperature dependent replication of porcine parvovirus isolates

The replication of four porcine parvovirus isolates, NADL-8, NADL-2, KBSH, and Kresse, in swine testes cells were compared at temperatures of 32, 37, and 39 degrees C. Replication of the Kresse isolate was restricted at 32 and 37 degrees C as evidenced by progeny virus, virus polypeptide and viral DNA synthesis, but not at 39 degrees C. In contrast, replication of KBSH was restricted at 39 degrees C, but not at 37 or 32 degrees C. Findings from this study support the contention that replication of KBSH and Kresse isolates are temperature dependent.