Faculty Bibliography

A temperature-sensitive mutant of hamster BHK 21/13 cells, tsAF8, which at 39 degrees becomes arrested in the G1 (G0) phase of the cell cycle, is phenotypically altered with respect to temperature sensitivity after transformation with polyoma virus. Polyoma transformation does not produce reversion to a non-temperature-sensitive phenotype but causes increased entry into S and increased rate of cell death at the nonpermissive temperature, compared to untransformed tsAF8 cells. The increased frequency of cells synthesizing DNA is not accompanied by an increased frequency of mitosis, since most of the polyoma-transformed tsAF8 cells that synthesize DNA at the nonpermissive temperature do not divide. At the permissive temperature, polyoma-transformed tsAF8 cells, unlike tsAF8, also lose viability when exposed to other methods of arresting cells in G1. The most likely explanation for this phenomenon is that polyoma virus transformation interferes with the cellular response to this mutation as well as to other conditions that cause cell cycle arrest in G1

We have isolated temperature-sensitive SV40-transformed 3T3 cells which are unable to grow in low or depleted serum at the nonpermissive temperature. At 39 degrees C, these cells do not grow in 1 percent serum, but they grow if the serum concentration is raised to 10 percent. At 32 degrees they grow in both serum concentrations. This phenotype seems to be due to a cellular mutation, as the virus rescued from these cells is wild-type. We tested whether other characteristics of transformed cells were expressed in a temperature sensitive way. While high saturation density is ts in these cells, other parameters of transformation are expressed at both temperatures. In addition, when these cells are incubated in low serum at 39 degrees C, they keep synthesizing DNA and lose viability very fast, while under the same conditions normal 3T3 cells remain viable for long times and are unable to initiate DNA synthesis. These cells therefore do not appear to revert to a normal phenotype at the high temperature, and they are more likely to represent transformed cell variants with a temperature-dependent serum requirement

Five temperature-sensitive growth mutants of the hamster cell line BHK-21 were tested for the ability to support adenovirus 2 multiplication at 39 degrees and 33 degrees. Wild-type BHK-21 and mutants ts 422E and ts BCH yielded comparable amounts of virus at 33 degrees and 39 degrees, whereas in three other mutants, ts T22, ts T23, and ts AF8, virus production at 39 degrees was reduced to about 1% of that at 33 degrees. Virus yield in the three mutants was not reduced because of a delay in virus production; for all cells tested maximal virus yield at 39 degrees was obtained by 40-50 hr after infection. Normal yields of infectious virus were not obtained from ts AF8 even with a very high multiplicity of infection. In contrast, the virus yield from ts T22 and ts T23 was multiplicity-dependent. Shiftup experiments demonstrated that in ts AF8, a cell cycle mutant which at 39 degrees becomes arrested in G1, virus multiplication was thermosensitive for the first 40 hr of infection. In ts T22 and ts T23, the thermosensitivity was only for the first 3-4 hr of the infection. In all three mutants viral DNA synthesis was reduced by at least 95% at the higher temperature. The cell function specified by the ts AF8 mutation seems to be required for the early period of adenovirus 2 replication, after virus entry into the cell but before the onset of viral DNA replication