Expression of the Major Internal Viral Polypeptide in Cells Transformed by Wild-Type and Temperature-Sensitive Murine Sarcoma Virus

Phenotypic expression of the murine intraspecies and interspecies antigenic determinants of the major type C viral structural 30,000-dalton polypeptide, p30, was measured by radioimmunoassay inhibition in cell lines from different species. Uninfected normal rat kidney (NRK) cells did not contain detectable levels of murine intraspecies and interspecies p30 antigen, whereas rat cells transformed by and producing murine sarcoma virus (MSV)-Moloney leukemia virus (M-MSV-MuLV) contained high levels of both murine intraspecies and interspecies p30 antigen. Significant amounts of murine intraspecies and interspecies p30 antigen were detected in wild-type MSV-transformed nonproducer NRK cells. The control of p30 antigen expression was examined in temperature-sensitive MSV-transformed nonproducer cells [NRK(MSV-1b)] which are cold sensitive for maintenance of the transformed phenotype. Both murine intraspecies and interspecies p30 antigens were detected in NRK(MSV-1b) cells when grown at the permissive (39 C) or nonpermissive (33 C) temperature, suggesting that p30 antigen expression is not correlated with maintenance of the transformed phenotype. The results demonstrate that previously undetectable p30 antigens are expressed in MSV-transformed nonproducer NRK cells, and suggest that the expression of p30 antigen may be a useful marker for viral gene expression in mammalian cells.     

Increased cyclic AMP content directly correlated with morphological transformation of cells infected with a temperature-sensitive mutant of mouse sarcoma virus

Summary Normal rat kidney cells infected with a cold-sensitive mutant of mouse sarcoma virus [NRK(MSV-1b)] morphologically transform when exposed to adenosine 3′∶5′ cyclic monophosphate (cAMP) at the restrictive temperature. The cAMP-induced morphological changes occur rapidly and are reversible. Agents capable of elevating endogenous levels of cAMP [prostaglandin E₁ (PGE₁) and cholera toxin (CT)] induced morphological transformation of NRK(MSV-1b) cells at the restrictive temperature that was concentration dependent, potentiated by cAMP phosphodiesterase inhibitors, and not prevented by inhibitors of DNA, RNA, and protein synthesis. Prostaglandin E₁ stimulated a transient increase in the intracellular level of cAMP with a concomitant morphological transformation and reversion of cells as cAMP levels decline. The maximum increase is reached by 10 min, followed by a decline to near basal level by 80 min. In contrast, incubation of cells with CT resulted in irreversible morphological transformation and increased levels of cAMP first detectable by 1 hr with maximum levels reached by 24 hr. Heated CT (100°C, 20 min) was without effect. Addition of CT to reverted PGE₁-treated cells resulted in morphological transformation suggesting the existence of discrete receptors in NRK (MSV-1b) cells. This research was supported by Grant BC-207 from the American Cancer Society and Cancer Research Emphasis Grant R01 CA 19714 within the Virus Cancer Program of the National Cancer Institute.     

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.     

Surface Alterations of Cells Carrying RNA Tumour Virus Genetic Information

CELLS transformed by the DNA tumour viruses, polyoma virus and SV40, are agglutinated by lectins such as wheat germ agglutinin¹, concanavalin A (Con A)² and soybean agglutinin³. Agglutination in these cases presumably reflects changes in the cell surface related to the transformed properties of the cell; studies with a temperature-dependent mutant of polyoma virus has shown that cell surface changes are controlled by viral genes⁴. Here we describe experiments in which we investigated the agglutinability of cells transformed by RNA tumour viruses. One recent report had suggested that cells transformed by RNA tumour viruses were not specifically agglutinated⁵, whereas a second more recent report claimed the specific agglutination of cells transformed by RSV⁶. We find that transformed rat, mouse and cat cells that replicate the sarcoma-leukaemia virus complex of murine (MSV) and feline (FeSV) origin are strongly agglutinated by Con A, but mouse and human cells that replicate the murine and feline leukaemia virus components alone are not agglutinated. The ability to agglutinate is rapidly acquired by normal mouse cells on infection with the murine sarcoma virus at a rate that parallels virus replication. In contrast to the results obtained with cells producing virus, non-virus-producing transformed hamster and mouse cells that synthesize virus-specific RNA are either not agglutinated or are agglutinated to a lesser degree. These results suggest that the cell surface alterations responsible for agglutination are not necessarily associated with the transformed state of the cell, but rather with the possession of sarcoma virus-specific information.     

Increased cyclic AMP content directly correlated with morphological transformation of cells infected with a temperature-sensitive mutant of mouse sarcoma virus

Normal rat kidney cells infected with a cold-sensitive mutant of mouse sarcoma virus [NRK(MSV-lb)] morphologically transform when exposed to adenosine 3':5' cyclic monophosphate (cAMP) at the restrictive temperature. The cAMP-induced morphological changes occur rapidly and are reversible. Agents capable of elevating endogenous levels of cAMP [prostaglandin E1 (PGE1) and cholera toxin (CT)] induced morphological transformation of NRK(MSV-lb) cells at the restrictive temperature that was concentration dependent, potentiated by cAMP phosphodiesterase inhibitors, and not prevented by inhibitors of DNA, RNA, and protein synthesis. Prostaglandin E1 stimulated a transient increase in the intracellular level of cAMP with a concomitant morphological transformation and reversion of cells as cAMP levels decline. The maximum increase is reached by 10 min, followed by a decline to near basal level by 80 min. In contrast, incubation of cells with CT resulted in irreversible morphological transformation and increased levels of cAMP first detectable by 1 hr with maximum levels reached by 24 hr. Heated CT (100 degrees C, 20 min) was without effect. Addition of CT to reverted PGE1-treated cells resulted in morphological transformation suggesting the existence of discrete receptors in NRK(MSV-lb) cells.     

Concanavalin A agglutinability of some enveloped RNA viruses modified by host cell transformation

The dependence on concanavalin A (Con A) concentration of agglutinability of some enveloped RNA viruses grown in transformed cells was compared with that of those grown in nontransformed cells. The avian oncoviruses were purified by centrifuging to equilibrium in a combination equilibrium: viscosity gradient of potassium tartrate and glycerol after conventional isopycnic sucrose density gradient centrifugation. Avian oncoviruses were more agglutinable with Con A when grown in transformed cells than when grown in nontransformed cells. Vesicular stomatitis virus grown in transformed cells was also more agglutinable than the virus grown in nontransformed cells. These results agree with the concept that the envelopes are modified by host cell transformation and that, therefore, viruses grown in transformed cells are expected to be more agglutinable with Con A than those grown in nontransformed cell.     

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.     

The dissociation of the surface architecture described by enhanced lectin agglutinability and the transformed phenotype expressed as anchorage independence.

Using a series of cold-sensitive variants of chemically transformed BHK-21 cells, revertants to the normal phenotype derived from a dimethyl-nitrosamine transformed clone of BHK-21 as well as revertants to the normal phenotype derived from polyoma transformed BHK-21 cells we have demonstrated that the surface phenotype described by enhanced agglutinability with Con A and WGA can be dissociated from the transformed phenotype described by anchorage independence (growth in semisolid medium). Specifically we have demonstrated that the surface characteristic of enhanced agglutinability may be found in a variety of cell lines which fail to display to grow in agar. Our work clearly shows that the two phenotypes described are not concomitantly controlled and tends to suggest that the phenotype of enhanced lectin agglutinability may be dissociated from the transformed phenotype.     

Differential lectin-mediated agglutinabilities of the embryonic and the first extraembryonic cell line of the early chick embryo

Summary The lectin-mediated agglutinability of cells dissociated from different areas of the gastrulating chick embryo was investigated. Differences in agglutinability were quantified by using a Coulter counter. Cells from the area pellucida (AP) and those from the endoderm of the area opaca (AOEn) are agglutinated by Concanavalin A (Con A), wheat germ agglutinin (WGA) andRicinus communis agglutinin (RCA). In cells from both areas the greatest agglutination response is obtained with RCA. Trypsinization of AOEn cells enhances their agglutinability with Con A, WGA and RCA. The lectin-induced agglutinability of cells from the area pellucida is similar in EDTA-dissociated and trypsinized cells.Cells from the AP are significantly more agglutinable with Con A than those of the AOEn regardless whether the former are obtained by trypsinization or dissociation with EDTA. The higher agglutinability of cells of the area pellucida with Con A, as well as the differential enhancement by trypsin of the agglutinability of AOEn cells with Con A, WGA, and RCA may reflect a difference in the cell surface glycoreceptors between the cells of the are pellucida (predominantly embryonic) and the first extraembryonic (AOEn) cell line. These cells have been shown to sort out from each other at the earliest stages of development.     

Mapping of sites on the surface membrane of mammalian cells

Summary Cells transformed by Simian Virus 40 have sites on the surface membrane for Concanavalin A (Con A) and a copolymer of ornithine, leucine (POL). The cells can be rapidly agglutinated by Con A, more slowly aggregated by POL, and they can be killed by both compounds. Treatment with Con A or POL has been used to select resistant cell variants from the transformed cells. Variants selected for resistance to Con A were also resistant to POL, but variants selected for resistance to POL were not resistant to Con A. The POL-selected variants showed less aggregation by POL but no decrease in agglutinability by Con A, whereas Con A-selected variants showed a decrease both in POL aggregation and Con A agglutination. The selection for both sites by Con A and only for POL sites by POL, can be explained in that the sites for POL are part of the sites for Con A and/or are included in clusters of Con A sites.Paper I in this series is Inbar, Ben-Bassat and Sachs (1971a).     

Cells transformed by temperature-sensitive mutants of avian sarcoma virus cause tumors in vivo at permissive and nonpermissive temperatures.

Chick embryo (CE) fibroblasts and normal rat kidney (NRK) cells transformed by temperature-sensitive (ts) mutants of avian sarcoma virus (NY68, LA23, LA24, LA25, LA29, LA31, GI201, GI202, GI251, GI253 induce tumors on the chorioallantoic membrane (CAM) of chick eggs at temperatures that correspond to the permissive and nonpermissive temperatures used to induce conditional expression of the "transformed" phenotype in these cells when cultured in vitro. Chick embryo cells infected with transformation-defective mutants of ASV (td101, td108) or RAV-50 were nontumorigenic under the same conditions, as were nontransformed CE and NRK cells. This indicates that the CAM is not an unusually susceptible substrate for cell growth and that the ability of tsASV-transformed cells to form tumors at nonpermissive temperatures reflects their true tumorigenicity. In contrast, a ts mutant chemically transformed rat liver cell line, ts-223, only formed tumors on the CAM under permissive conditions. The wild-type parent cells (W-8) of this mutant produced tumors at both permissive and nonpermissive temperatures. Direct implantation of microprobe thermometers into tumors caused by ts-ASV-transformed cells at nonpermissive temperatures confirmed that tumor formation occurred in a stable temperature environment and was not due to temperature fluctuations which might have created semi-permissive conditions for tumor growth. Cells isolated from tumors formed at nonpermissive temperatures and recultured in vitro displayed temperature-dependent hexose transport and colony formation in agar similar to the orginal parent cell inoculum. Similarly, virus recovered from tumors at nonpermissive temperatures retained the ts mutation.     

Modification of the phenotype of murine sarcoma virus-transformed cells by sodium butyrate : Effects on morphology and cytoskeletal elements

The effects of sodium butyrate on cellular morphology and the distribution of cytoskeletal elements were examined using a line of normal rat kidney cells transformed by and producing murine sarcoma and leukemia viruses [NRK (MSV-MLV)]. Untreated cells were predominantly round or fusiform in shape and contained few microfilaments and microtubules. Culturing these cells in medium containing 2 mM sodium butyrate induced the formation of long cytoplasmic processes within 12–24 h followed by a progressive flattening of the cells which was apparent in most cells by 72 h. Reversal of these changes in NRK (MSV-MLV) cells grown for several passages in butyrate medium required at least ten cell divisions. The morphological alterations induced by butyrate were accompanied by a striking elaboration of cytoplasmic microfilaments and microtubules as shown by indirect immunofluorescence and by electron microscopy. Butyrate also enhanced the formation of substrate adhesion plaques and intercellular gap junctions, but not adherens junctions. These results suggest that growth of NRK (MSV-MLV) cells in the presence of butyrate induced specific cellular alterations which counteract some of the effects of transformation of NRK cells by MSV.     

Characterization of a human intestinal fucolipid with blood group Lea activity.

A fucolipid that carried human blood group Lea activity was isolated from human small intestine. It contianed fucose, galactose, N-acetyl glucosamine, glucose, and ceramide in a molar ratio of 1:2:1:1:1. After periodate oxidation only 1 molecule of galactose and the N-acetylglucosamine remained. Permethylation of the lipid gave derivatives of a terminal fucose and galactose residue together with 2,4,6-tri-O-methylgalactose and 2,3,6-tri-O-methylglucose. After removal of fucose the lipid could be converted to a ceramide trihexoside with beta-galactosidase, and this, in turn, to ceramide lactoside by the action of beta-N-acetylhexosaminidase. Both enzymes converted the defucosylated derivative to a ceramide monohexoside. The methylated and the methylated and reduced derivatives of the intact lipid gave ions in mass spectrometry for a terminal hexose and deoxyhexose, a terminal trisaccharide of hexose, deoxyhexose and N-acetylhexosamine, and terminal tetra-and pentasaccharides. Ceramide fragments characteristic of hydroxy fatty acids with 16, 22, 23, and 24 carbons were found together with those of phytospingosine as the major long chain base. On the basis of these results and the immunologic activity of the fucolipid, the following structure is proposed: betaGal (1 leads to 3)betaGlcNAc (1 leads to 3)betaGal (1 leads to 4)Glc-ceramide alphaFuc (1 leads to 4).     

Biologic and molecular characterization of two newly isolated ras-containing murine leukemia viruses.

A murine sarcoma virus (MSV) was recovered from an (NFS X NS.C58v-1) F1 mouse which developed splenic sarcoma and erythroleukemia 6 months after inoculation with a mink cell focus-inducing murine leukemia virus (MuLV) isolated from an NFS mouse infected with a wild mouse ecotropic MuLV. The MSV, designated NS.C58 MSV-1, induced foci of transformation in mouse and rat fibroblasts, and inoculation of mice of various strains 2 weeks of age or younger resulted in erythroleukemia and sarcomatous lesions in spleen, lymph node, and brain. The MSV provirus was molecularly cloned from a genomic library prepared from transformed non-producer rat cells. The 8.8-kilobase proviral DNA contained a 1.0-kilobase p21 ras coding segment which replaced most of the gp70-encoding portion of an MuLV, most likely the endogenous C58v-1 ecotropic virus. The ras oncogene is closely related to v-Ha-ras by hybridization, expression of p21 protein, and nucleotide sequence. It is nearly identical in sequence to v-bas, the only previously described transduced, activated mouse c-ras. At position 12 in the p21 coding region, arginine is substituted for the naturally occurring glycine present in c-ras. A second MSV isolate is described which is similar to NS.C58 MSV-1 except for a 100- to 200-base-pair deletion in the noncoding region of the ras-containing insert.     

Regulation of concanavalin A agglutination by the extracellular matrix

The agglutinability of rat C₆ glioma cells by concanavalin A (Con A) depends upon cell density. From sparse density to near confluency agglutinability increases as cell density rises. Both the half-maximal concentration and the maximum amplitude of agglutination by Con A are functions of cell density, but are separate cell parameters differing in the extent to which they are affected by density and the point at which they become insensitive to further density increases. Both trypsin and EDTA reduce cell agglutinability. The similarity in recovery kinetics between low density cells and cells dissociated with EDTA or trypsin suggests that low density cells may lose the same surface agglutination component(s) removed by trypsin and EDTA. Density-dependent regulation of Con A agglutinability is anchorage dependent; cells grown in suspension display no such phenomenon. The cooperative cell regulation of agglutinability is mediated by the extracellular matrix, or micro-exudate. The matrix contains two activities: low density cultures produce a matrix inhibitor of Con A agglutinability, while high density cultures produce a matrix promotor.     

Differential expression of Rous Sarcoma virus-specific transformation parameters in enucleated cells.

Chicken embryo fibroblasts transformed with the Ta and ts68 mutants of Rous Sarcoma virus (RSV) were enucleated and studied for their capacity to express reversibly the transformed phenotype in response to temperature changes. After shift to the permissive temperature (35 degrees C), the cytoplasts acquired a transformed morphology and displayed characteristic ruffles and microvilli at their surface. As detected by immunofluorescence, they also lost their actin filament cables and exhibited characteristic changes in the pattern of cell surface structures containing LETS protein. Expression of all these transformation parameters was reversible after shiftback to the nonpermissive temperature (41 degrees C). These results indicate that a whole set of changes characteristic for the transformed phenotype can be expressed independently of the cell nucleus. In contrast, ts mutant-infected cytoplasts were no longer able to respond to temperature shifts with changes in their hexose transport rate. Cytoplasts prepared from cells grown at 41 degrees C retained their low rate of hexose uptake after shift to 35 degrees C, whereas cytoplasts from cells grown at 35 degrees C exhibited a high rate of hexose transport even after 10 hr of shift to 41 degrees C. These results are in accordance with the hypothesis that the product of the src gene of RSV represents a multifunctional protein which acts independently on nuclear and extranuclear sites.     

Glycophorin A interferes in the agglutination of human erythrocytes by concanavalin A. Explanation of the requirement for enzymic predigestion.

Human erythrocytes become agglutinable with concanavalin A (Con A) after treatment with various proteinases or neuraminidase. The extent of agglutinability achieved with different enzymes is, however, different: Pronase, papain, trypsin, neuraminidase and chymotrypsin enhance the agglutinability in decreasing order, the last being barely effective. The actions of the enzymes on band 3, the Con A receptor, do not correlate with their abilities to increase the agglutinability: Pronase, papain and chymotrypsin cleave the protein, but not trypsin or neuraminidase. No significant differences are found in the number of Con A-binding sites or the affinities for the lectin between the normal and trypsin- or Pronase-treated cells. Thus the receptor does not seem to play a role in determining the Con A-agglutinability of erythrocytes. On the other hand, the cleavage of glycophorins, especially glycophorin A, and the release of sialic acid (in the peptide-bound form) are well-correlated with the enhancement in agglutination after the action of proteinases. The release of sialic acid by graded neuraminidase digestion and the increase in Con A-agglutinability show a correlation coefficient of 0.88. The major inhibitory role of glycophorin A in the process is indicated by the agglutination of En(a) heterozygous erythrocytes; the cells, known to bear about 50% glycophorin A molecules in their membrane, are agglutinated approximately half as well without proteolysis as are the trypsin-treated cells. Possible mechanisms by which glycophorin A could affect Con A-mediated agglutination are discussed.     

Agglutination of Cells transformed by Rous Sarcoma Virus by Wheat Germ Agglutinin and Concanavalin A

Chick embryo fibroblasts transformed by Rous sarcoma virus are agglutinated by wheat germ agglutinin and by concanavalin A if the cells are pretreated with purified hyaluronidase. Cells infected by a temperature-sensitive mutant of this virus are agglutinable if grown at the permissive temperature but not if grown at the non-permissive temperature.     

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.