Properties of mammalian cells transformed by temperature-sensitive mutants of avian sarcoma virus.

Fibroblasts from European field vole (Microtus agrestis) and from normal rat kidney (NRK) have been infected by avian sarcoma virus mutants which are temperature-sensitive for the maintenance of transformation. These cells are transformed at 33 degrees C, but show normal cell characteristics in morphology, colony formation in agar, saturation density, sugar uptake and membrane proteins at 39 degrees C and 40 degrees C, the nonpermissive temperatures. Ts mutant virus was rescued from most of the ts transformed cell lines. NRK cells infected by avian sarcoma virus ts mutants and kept at the nonpermissive temperature can be transformed by wild-type avian sarcoma virus. The susceptibility of the temperature-sensitive NRK lines to this transformation is higher than the susceptibility of uninfected NRK at either permissive or nonpermissive temperature.     

Role of simian virus 40 gene A function in maintenance of transformation.

Mouse, hamster, and human cells were transformed at the permissive temperature by mutants from simian virus 40 (SV40) complementation group A in order to ascertain the role of the gene A function in transformation. The following parameters of transformation were monitored with the transformed cells under permissive and nonpermissive conditions: morphology; saturation density; colony formation on plastic, on cell monolayers, and in soft agar; uptake of hexose; and the expression of SV40 tumor (T) and surface (S) antigens. Cells transformed by the temperature-sensitive (ts) mutants exhibited the phenotype of transformed cells at the nonrestrictive temperature for all of the parameters studied. However, when grown at the restrictive temperature, they were phenotypically similar to normal, untransformed cells. Growth curves showed that the (ts) A mutant-transformed cells exhibited the growth characteristics of wild-type virus-transformed cells at the permissive temperature and resembled normal cells when placed under restrictive conditions. There were 3-to 51-fold reductions in the levels of saturation density, colony formation, and uptake of hexose when the mutant-transformed cells were the elevated temperature as compared to when they were grown at the permissive temperature. Mutant-transformed cells from the nonpermissive temperature were able to produce transformed foci when shifted down to permissive conditions, indicating that the phenotypically reverted cells were still viable and that the reversion was a reversible event. SV40 T antigen was present in the cells at both temperatures, but S antigen was not detected in cells maintained at the nonpremissive temperature. All of the wild-type virus-transformed cells exhbited a transformed cells exhibited a transformed phenotype when grown under either restrictive or nonrestrictive conditions. Thers results indicate that the SV40 group A mutant-transformed cells are temperature sensitive for the maintenance of growth properties characteristics of transformation. Virus rescued from the mutant-transformed cells by the transfection method was ts, suggesting that the SV40 gene A function, rather than a cellular one, is responsible for the ts behavior of the cells.     

Distinguishable transformation-defective phenotypes among temperature-sensitive mutants of Rous sarcoma virus.

Eight transformation-defective, temperature-sensitive (ts) mutants of the Prague strain of Rous sarcoma virus, subgroup A, have been isolated after mutagenesis with 5-bromodeoxyuridine followed by selection on the basis of focus tests. Five of these mutants, ts GI201, GI202, GI203, GI204, and GI205, exhibit properties like most previously reported isolates in that they show a temperature-sensitive response to each of a variety of transformation-specific parameters tested. Interestingly, GI201, in addition to the temperature-sensitive defect, carries a lesion that was observed as a nonconditional loss of expression of plasminogen activator protease. Three mutants, ts GI251, GI252, and GI253 have been disignated partial transformation-defective (PTD) mutants since they behave as ts mutants according to some tests for transformation and as wild type according to others. These three mutants fail to form foci at the nonpermissive temperature (41 degrees C) and art nontumorigenic in 3-week-old chickens (body temperature, 42 degrees C). The agglutinability by concanavalin A of cells infected with these mutants shows a definite temperature sensitivity, as do the rate of 2-deoxyglucose uptake and the disappearance of the 250, 000-dalton normal cell glycoprotein (large, external, transformation sensitive [LETS]). Although the PTD mutant-infected cells, unlike cells infected with other transformation mutants, exhibit a cell-bound plasminogen activator protease at the nonpermissive temperature, this activator is not detectable as a free protease in the medium, as it is with wild-type, virus-infected cells. The PTD mutants behave like the wild-type parent in their ability to induce transformed growth properties in the infected cells, i.e., growth beyond normal cell saturation density with or without serum-supplemented medium and growth leading to colony formation in soft-agar- or methyl cellulose-containing suspension media.     

Interactions of concanavalin A with chick embryo fibroblasts transformed by Rous sarcoma virus. Study with an RSV mutant thermosensitive for transformation.

The interactions between concanavalin A and chick embryo fibroblasts, normal and infected with Rous sarcoma virus (RSV-BH) or its thermosensitive mutant RSV-BH-Ta, have been studied. Normal chick embryo cells and RSV-BH transformed cells showed at 4 and 25 degrees C a similar number of concanavalin A receptors per cell. Analysis of the binding data by the Scatchard relation showed that apparent changes in binding as a function of temperature are due to the thermodynamic properties of the process and not to endocytosis. The lectin receptors on the cell surface of normal and RSV-BH infected cells showed homogeneity in their binding properties. Chick cells infected with RSV-BH-Ta showed a lectin binding behavior that was dependent on the temperature at which the cells were grown. At the permissive temperature for transformation (37 degrees C), the binding process was similar to that observed for normal and RSV-BH infected cells. At the nonpermissive temperature (41 degrees C), the cells showed at least two sets of concanavalin A receptors. The new set of receptors on the cell surface had a lower lectin affinity than those observed in the same cells at 37 degrees C. Chick cells infected with RSV-BH showed an enhanced agglutinability by concanavalin A, as compared with normal cells. Cells infected with RSV-BH-Ta showed a reversal of the correlation between increased concanavalin A agglutinability and the transformed state. At the permissive temperature for transformation, the cells were not agglutinable, whereas at the nonpermissive temperature they presented agglutinability indexes as high as those observed with RSV-BH infected cells. This enhanced agglutinability observed with cells maintained at the nonpermissive temperature for transformation may be related to the new set of low affinity receptors present at 41 degrees C.     

Impaired processing of precursor polypeptides of temperature-sensitive mutants of Rauscher murine leukemia virus.

The synthesis and processing of virus-specific precursor polypeptides in NIH/3T3 cells infected at the permissive temperature (31 degrees C) with temperature-sensitive (ts) mutants of Rauscher murine leukemia virus was studied in pulse-chase experiments at the permissive and nonpermissive (39 degrees C) temperatures. The newly synthesized virus-specific polypeptides were analyzed by sodium dodecyl sulfate polyacrylamide gel electrophoresis after immunoprecipitation with polyvalent and monospecific antisera against Rauscher murine leukemia virus proteins. In cells infected with ts mutants defective in early replication steps (the early mutants ts17 and ts29), and ts mutants defective in postintegration steps (the late mutants ts25 and ts26), the processing of the primary gag gene product was impaired at the nonpermissive temperature. gag-pr75 of all four mutants was converted into gag-pr65; however, gag-pr65 accumulated at the nonpermissive temperature, and the main internal virion polypeptide p30 was not formed. Therefore, the proteolytic cleavage is blocked beyond gag-pr65. Concomitantly, the formation of the env gene-related polypeptide p12(E) of all four mutants was blocked at the restrictive temperature. In contrast, cells infected with the late mutant ts28, which produced noninfectious virions at 39 degrees C, showed a normal turnover of the gag and env precursor polypeptides.     

Biochemical transformation by temperature-sensitive mutants of herpes simplex virus type 1.

Biochemical transformation assays of herpes simplex virus type 1 temperature-sensitive (ts) mutants distinguished three groups of mutants with regard to their thymidine kinase (TK) transforming ability: those incapable of transferring the TK gene at either the permissive or restrictive temperatures (group I); those resembling the wild-type virus, and therefore able to transform at both the permissive and nonpermissive temperatures (group II); and those that failed to transform or exhibited very low transformation frequencies at the permissive temperature but were able to transform at the nonpermissive temperature (group III). Two mutants in group II exhibited greatly enhanced transformation efficiency at the permissive temperature. The ts lesions in the majority of the mutants tested map between 0.30 and 0.60 units on the viral genome. Mutants with TK-positive (TK+), but DNA-negative, phenotypes at the nonpermissive temperature produced no TK+ transformants at the permissive temperature and only unstable transformants at the nonpermissive temperature. This suggests that a function which is required for viral DNA synthesis is also required to obtain stable expression or to transfer the TK+ gene or both when transfer is mediated by the entire viral genome.     

Role of the simian virus 40 gene A product in regulation of DNA synthesis in transformed cells.

Cells transformed by tsA mutants of simian virus 40 (SV40) are temperature sensitive for the maintenance of the transformed phenotype. The kinetics of induction of DNA synthesis were determined for hamster cell transformants shifted to the permissive temperature after a 48-h serum arrest at the nonpermissive temperature. DNAsynthesis was initiated in the tsA transformants by 8 h after shiftdown was maximal by 12 h. The presence or absence of fetal bovine serum at the time of temperature shift had no effect on the kinetics of initiation of DNA synthesis. Analysis of TTP in tsA transformants revealed similar levels of incorporation of [3H]thymidine into TTP at both permissive and nonpermissive temperatures. Autoradiography revealed that by 12 h after a shift to the permissive temperature, approximately 50% of the cells exhibited labeled nuclei after a 60-min pulse with [3H]thymidine, indicating that a majority of the cells were actively synthesizing DNA. By 8 to 12 h after a shiftup of confluent tsA transformants to the nonpermissive temperature, the number of labeled nuclei was reduced to approximately 16%, regardless of serum concentration. These data indicate that the SV40 gene A product, either directly or indirectly, regulates cellular DNA synthesis in transformed cells.     

Interactions of concanavalin A with chick embryo fibroblasts transformed by rous sarcoma virus Study with an RSV mutant thermosensitive for transformation

The interactions between concanvalin A and chick embryo fibroblasts, normal and infected with Rous sarcoma virus (RSV-BH) or its thermosensitive mutant RSV-BH-Ta, have been studied. Normal chick embryo cells and RSV-BH transformed cells showed at 4 and 25 °C a similar number of concanavalin A receptors per cell. Analysis of the binding data by the Scatchard relation showed that apparent changes in binding as a function of temperature are due to the thermodynamic properties of the process and and not to endocytosis. The lectin receptors on the cell surface of normal and RSV-BH infected cells showed homogeneity in their binding properties. Chick cells infected with RSV-BH-Ta showed a lectin binding behavior that was dependent on the temperature at which the cells were grown. At the permissive temperature for transformation (37 °C), the binding process was similar to that observed for normal and RSV-BH infected cells. At the nonpermissive temperature (41 °C), the cells showed at least two sets of concanavalin A receptors. The new set of receptors on the cell surface had a lower lectin affinity than those observed in the same cells at 37 °C.Chick cells infected with RSV-BH showed an enhanced agglutinability by concanavalin A, as compared with normal cells. Cells infected with RSV-BH-Ta showed a reversal of the correlation between increased concanavalin A agglutinability and the transformed state. At the permissive temperature for transformation, the cells were not agglutinable, whereas at the nonpermissive temperature they presented agglutinability indexes as high as those observed with RSV-BH infected cells. This enhanced agglutinability observed with cells maintained at the nonpermissive temperature for transformation may be related to the new set of low affinity receptors present at 41 °C.     

Isolation and characterization of temperature-sensitive mutants of adenovirus type2.

Fourteen temperature-sensitive mutants of human adenovirus type2, which differed in their plaquing efficiencies at at the permissive and nonpermissive temperatures by 4 to 5 orders of magnitude, were isolated. These mutants, which could be assigned to seven complementation groups, were tested for their capacity to synthesize adenovirus DNA at the nonpermissive temperature. Three mutants in three different complementation groups proved deficient in viral DNA synthesis. The DNA-negative mutant H2ts206 complemented the DNA-negative mutants H5ts36 and H5ts125, whereas mutant H2ts201 complemented H5ts36 only. Among the DNA-negative mutants, H2ts206 synthesized the smallest amount of viral DNA at the nonpermissive temperature (39.5 C). Data obtained in temperature shift experiments indicated that a very early function was involved in temperature sensitivity. In keeping with this observation, early virus-specific mRNA was not detected in cells infected with H2ts206 and maintained at 39.5 C. Prolonged (52 h) incubation of cells infected with H2ts206 at the nonpermissive temperature led to the synthesis of a high-molecular-weight form of viral DNA.     

Stimulation of growth rate of chondrocytes by Rous sarcoma virus is not coordinated with other expressions of the src gene phenotype

Infection and transformation of chondrocytes by Rous sarcoma viruses (RSVs) (Schmidt-Ruppin, Prague) stimulated the rate of cell growth. In contrast, several transformation-defective (td) mutants (tdPRA, tdNY105, tdNY106, tdNY107, and tdNY108) retaining various sizes of the src gene did not stimulate cell growth, indicating that the stimulation of growth of chondrocytes is due to the function of the src gene. With the use of various T (transformation)-class temperature-sensitive (ts) mutants of RSV, growth stimulation of chondrocytes by the src gene was examined. It was found that there are two types of T-class ts mutants with regard to the stimulatory effect on the growth of chondrocytes. One type (tsNY68) stimulates cell growth at both permissive (36 degrees C) and nonpermissive (41.5 degrees C) temperature, as does the wild type of RSV. Another type (ts GI201 [clone 9]) stimulates cell growth only at the permissive temperature. Chondrocytes infected with either of these two types of T-class ts mutants showed ts properties in other transformation markers, such as uptake of 2-deoxy-D-glucose, change of cell morphology, and focus formation. These data indicate that the effect of the src gene on cell growth does not occur coordinately with other transformation markers.     

Isolation of heat- and cold-sensitive mutants of chinese hamster lung cells affected in their ability to express the transformed state.

A clone of spontaneously transformed Chinese hamster lung cells was exposed to N-methyl-N'-nitro-N-nitroso-guanidine (MNNG), and six heat-sensitive and three cold-sensitive mutants were isolated after selection for inability to form colonies in soft agar at 39.5 degrees C and 34.5 degrees C, respectively. The heat-sensitive mutants had growth characteristics of transformed cells at 34.5 degrees C, but exhibited a normal phenotype at 39.5 degrees C. By contrast, cold-sensitive mutants displayed the characteristics of the normal cells at 34.5 degrees C and converted to a transformed phenotype at 39.5 degrees C. Transformed parent cells exhibited no obvious temperature-dependent properties. Temperature shift experiments showed that the colony-forming ability of both types of mutants was fully reversible. All of the mutants were able to grow well at both permissive and nonpermissive temperatures when grown on the surface of plastic dishes. Such mutants will be useful in analysis of factors involved in the expression of the transformed state or the maintenance of the nontransformed state.     

Partial reversion of conditional transformation correlates with a decrease in the sensitivity of rat cells to killing by the parvovirus minute virus of mice but not in their capacity for virus production: effect of a temperature-sensitive v-src oncogene.

The cytolytic effect of the autonomous parvovirus minute virus of mice, prototype strain (MVMp), was studied in cultures of ts 339/NRK rat cells that display a temperature-sensitive transformed phenotype as a result of their transformation with a Rous sarcoma virus strain matured in the v-src oncogene. A shift from restrictive (39.5 degrees C) to permissive (34.5 degrees C) temperature was associated with a marked sensitization of these cells to killing by MVMp. In contrast, ts 339/NRK cell derivatives supertransformed with a wild-type src oncogene were sensitive to MVMp at both temperatures, suggesting that the expression of a functional oncogene product may determine, at least in part, the extent of the parvoviral cytopathic effect. Although ts 339/NRK cells were quite resistant to parvoviral attack at 39.5 degrees C, they were similarly proficient in MVMp uptake, viral DNA and protein synthesis, and infectious particle production at both permissive and restrictive temperatures. Consistently, electron microscopic examination of infected ts 339/NRK cultures incubated at 39.5 degrees C revealed the presence, in the majority of the cells, of numerous full and empty virions that were predominantly located in autophagic-type vacuoles. Thus, in this system, the reversion of transformed and MVMp-sensitive phenotypes appears to correlate with the setting up of a noncytocidal mode of parvovirus production. These results raise the possibility that the physiological state of host cells may affect their susceptibility to parvoviruses by modulating not only their capacity for virus replication but also cellular processes controlling the cytopathic effect of viral products.     

Cooperative transformation studies with temperature-sensitive mutants of Rous sarcoma virus.

Stocks of Rous sarcoma virus Bryan strain were mutagenized using a bromodeoxyuridine treatment immediately after infection. Thirty temperature-sensitive (ts) mutants defective in transformation (td) were isolated by a replica plating technique. Twenty of these mutants were preliminarily characterized and found to be defective in late functions related to transformation. These mutants were used in experiments of cooperative transformation with four Prague strain td ts mutants of different co-transformation group. A small number of Bryan ts mutants were found to cooperate with some of the Prague mutants in transforming chicken embryo cells at the nonpermissive temperature. However, the amount of co-transformation observed was lower than that observed with cooperating Prague ts mutants and no clear-cut pattern of cotransformation was obtained in Prague and Bryan crosses. Indirect evidence indicates that cooperative transformation is the result of recombination events.     

Cyclic amp-induced morphological transformation of cells infected by temperature-sensitive mouse sarcoma virus: Expression of transformation-associated markers

Normal rat kidney (NRK) cells infected with a temperature-sensitive (ts) mutant of mouse sarcoma virus (NRK [MSV-1b]) express the transformed phenotype when grown under permissive conditions, but acquire the normal phenotype when grown under restrictive conditions. Addition of 3', 5' cyclic adenosine monophosphate (cAMP) to NRK (MSV-1b) cells grown at the restrictive temperature results in morphological transformation. To determine whether other markers associated with the transformed phenotype were coordinately expressed after cAMP exposure, concanavalin A (Con A) agglutinability, hexose transport rate, and incorporation of radioactively labeled fucose into fucolipid III and fucolipid IV (FL III and FL IV ) of the cells were examined. NRK cells transformed by wild-type MSV or NRK(MSV- 1b) grown under permissive conditions were agglutinated by low concentrations of Con A and exhibited relatively high maximal agglutination levels which were specifically inhibited by α-methyl-D-mannoside. In contrast, NRK (MSV-1b) cells grown under restrictive conditions were weakly agglutinated by Con A and exhibited reduced maximal agglutination levels, similar to uninfected NRK cells. Treatment of NRK (MSV-1b) cells at the restrictive temperature with cAMP resulted in morphological transformation and a change in the pattern of incorporation of labeled fucose inot FL III and FL IV to one comparable to that of NRK (MSV-1b) cells at the permissive temperature or to NRK cells transformed by wild-type MSV. In contrast, cAMP treatment resulted in no increase in Con A agglutinability or 2 deoxy-D- [(3)H]glucose transport relative to mock treated cultures. The results demonstrate that cAMP-induced morphological transformation and altered fucolipid composition of NRK (MSV-1b) cells are not correlated with alterations in hexose transport rate or Con A agglutinability.     

Identification of a transformation-specific protein induced by a Rous sarcoma virus.

Using antisera obtained from rats bearing Schmidt-Ruppin strain Rous sarcoma virus-induced tumors, we have idnetified a protein with an apparent molecular weight of 56,000 daltons and an isoelectric point of 6.3 in extracts of chick embryo fibroblasts transformed by a wild-type nondefective Rous sarcoma virus (Schmidt-Ruppin strain). This protein was not found in cells infected by trnasformation-defective mutants with either a partial or complete deletion of the src gene, nor in cells infected by a nontransforming avian leukosis virus. The 56,000 dalton molecular weight protein was found to be synthesized at both the permissive and nonpermissive temperatures in cells infected by either of two conditionallethal mutants that are temperature-sensitive in cell transformation. The amount of this protein, however, accumulated in cells infected by these temperature-sensitive mutants, relative to the structural polypeptides, differed significnatly from that seen with the nondefective virus. Pulsechase experiments indicate that the protein is extremely unstable, with a half-life of about 20 min, and does not serve as a precursor to any of the detectable virion polypeptides. Furthermore, incubation of the rat antiserum with purified, disrupted virus did not affect its immunoreactivity to this particular protein. We conclude that this 56,000 dalton molecular weight protein is a nonstructural protein specific to cells transformed by Rous sarcoma virus.     

Transient reduction in secreted 32 kD chitinase prevents somatic embryogenesis in the carrot (Daucus carota L.) variant ts11

At the nonpermissive temperature, somatic embryos of the temperature-sensitive (ts) carrot (Daucus carota L.) cell variant ts11 only proceed beyond the globular embryo stage in the presence of medium conditioned by wild-type cells. The causative component in the conditioned medium has been identified as an acidic 32 kD endochitinase. An antiserum raised against the 32 kD chitinase detected this protein in culture medium from ts11 embryo cultures grown at the permissive temperature as well as at the nonpermissive temperature. No difference in biochemical characteristics or in effect on ts11 embryo development could be detected between the 32 kD chitinase purified from wild-type cultures and the chitinase from ts11 cultures grown at the permissive or at the nonpermissive temperature. Compared to the amount present in a ts11 embryo culture at the permissive temperature, a reduction in the amount of 32 kD chitinase was observed during the temperature-sensitive period at the nonpermissive temperature. These results imply that the arrested embryo phenotype of ts11 is not the result of a structural difference in its 32 kD chitinase, but is the result of a transient decrease in the amount of 32 kD chitinase present. Morphological observations indicate that the ts11 phenotype is pleiotropic and also affects the cell wall of nonembryogenic cells. © 1995 Wiley-Liss, Inc.     

In vitro tumoricidal activity of macrophages against virus-transformed lines with temperature-dependent transformed phenotypic characteristics.

The susceptibility of targets to destruction by tumoricidal rat and mouse macrophages was studied with virus-transformed cell lines in which various elements of the transformed phenotype are only expressed at specific temperatures. BHK cells transformed by the ts3 mutant of polyoma virus, rat embryo 3Y1 cells transformed by a temperature-sensitive A cistron mutant of simian virus 40 (SV40) and the ts-H6-15 temperature-sensitive line of SV40-transformed mouse 3T3 cells were killed in vitro by macrophages at both the permissive (33 °C) or nonpermissive (39 °C) temperatures for expression of the transformed phenotype. 3T3, 3Y1 and BHK cells transformed by wild-type SV40 or polyoma virus were also destroyed by tumoricidal macrophages at both 33 and 39 °C, but untransformed 3T3, 3Y1, and BHK cells were not. Thus, transformed cells are killed by macrophages regardless of whether or not they express cell surface LETS protein or Forssman antigen, display surface changes which permit agglutination by low doses of plant lectins, express SV40 T antigen, have a low saturation density, or exhibit density-dependent inhibition of DNA synthesis.     

Possible role of the T antigen in inducing chromosome aberrations in SV40 virus-transformed cells

A possible role of the simian virus 40 T antigen in chromosome damages in transformed cells was examined. Two lines of Golden hamster embryonal fibroblasts, transformed by SV40 tsA30 and ts239 mutants (He30 and He239, respectively), were incubated at nonpermissive (40.5-41 degrees C) or permissive (33 degrees C) temperatures. Chromosome aberrations were registered in either subline after 3, 6, 9 and 12 weeks of cultivation under the above conditions. In the both cell lines kept at 33 degrees the frequency of aberrant metaphases and the number of chromosome breaks per cell increased drastically by week 3 of cultivation, and such a state was preserved up to week 12. The frequency of aberrant metaphases in cells cultivated at 41 degrees was maintained at the constant level (He239) or at slightly higher than that in the original culture (He30). The sublines He239, originally incubated at 33 or 40.5 degrees, were then shifted to 40.5 and 33 degrees, respectively. As a result the number of chromosome aberrations either decreased (33----40.5 degrees) or increased (40.5----33 degrees) as early as on day 2, and these patterns were stabilized at the level corresponding to the new conditions. We assayed the induction of DNA breaks in cells, grown at the permissive or nonpermissive temperatures, by using DNA sedimentation in the alkaline sucrose gradient. The DNA sedimentation peaks of cells cultured at 37 and 41 degrees coincided, whereas the DNA of cells cultured at 33 degrees was represented by shorter fragments.