Revertants and partial transformants of rat fibroblasts infected with Fujinami sarcoma virus

Epigenetic control of tumor cell morphology

XC cell line derived from a single rat cell transformed by the Prague strain of Rous sarcoma virus produced morphologically different colonies. Among them, two distinct cell types consisting of thick, fusiform cells (L-type), and of flat, polygonal cells (R-type) were apparent. By repeated subclonings, pure cultures, L1 and R1, respectively, were obtained. These clones underwent morphological conversion during prolonged culture; L-type colonies appeared in the R-type clone and vice versa. The kinetic curve suggested that the conversion was multi-stepped. When inoculated into nude mice, L-type cells produced much larger tumors at a higher frequency than R-type cells, and the tumors induced by these two clones were histologically different. The expression of v-src gene was higher in L-type than in R-type cells at both mRNA and protein levels.

Avian sarcoma viruses

Twelve independent isolates of avian sarcoma viruses (ASVs) can be divided into four groups according to the transforming genes harbored in the viral genomes. The first group is represented by viruses containing the transforming sequence, src, inserted in the viral genome as an independent gene; the other three groups of viruses contain transforming genes fps, yes or ros fused to various length of the truncated structural gene gag. These transforming sequences have been obtained by avian retroviruses from chicken cellular DNA by recombination. The src-containing viruses code for an independent polypeptide, p60src; and the representative fps, yes and ros-containing ASVs code for P140/130gag-fps, P90gag-yes and P68gag-ros fusion polypeptides respectively. All of these transforming proteins are associated with the tyrosine-specific protein kinase activity capable of autophosphorylation and phosphorylating certain foreign substrates. p60src and P68gag-ros are integral cellular membrane proteins and P140/130gag-fps and P90gag-yes are only loosely associated with the plasma membrane. Cells transformed by ASVs contain many newly phosphorylated proteins and in most cases have an elevated level of total phosphotyrosine. However, no definitive correlation between phosphorylation of a particular substrate and transformation has been established except that a marked increase of the tyrosine phosphorylation of a 34,000 to 37,000 dalton protein is observed in most ASV transformed cells. The kinase activity of ASV transforming proteins appears to be essential, but not sufficient for transformation. The N-terminal domain of p60src required for myristylation and membrane binding is also crucial for transformation. By contrast, the gag portion of the FSV P130gag-fps is dispensable for in vitro transformation and removal of it has only an attenuating effect on in vivo tumorigenicity. The products of cellular src, fps and yes proto-oncogenes have been identified and shown to also have tyrosine-specific protein kinase activity. The transforming potential of c-src and c-fps has been studied and shown that certain structural changes are necessary to convert them into transforming genes. Among the cellular proto-oncogenes related to the four ASV transforming genes, c-ros most likely codes for a growth factor receptor-like molecule. It is possible that the oncogene products of ASVs act through certain membrane receptor(s) or enzyme(s), such as protein kinase C, in the process of cell transformation.

Revertants of v-fos-transformed fibroblasts have mutations in cellular genes essential for transformation by other oncogenes

Morphologic revertants of FBJ murine sarcoma virus (v-fos)-transformed rat-1 fibroblasts were isolated using a novel selection procedure based on prolonged retention of rhodamine 123 within mitochondria of v-fos-transformed versus normal fibroblasts. Two classes of revertants were isolated: class I revertants have sustained mutations in cellular genes, and a class II revertant has a nonfunctional v-fos provirus. Somatic-cell hybridization studies suggested that the revertant phenotype was recessive to the transformed phenotype. Class I revertants were also resistant to retransformation by v-gag-fos-fox, v-Ha-ras, v-abl, and v-mos, but could be retransformed by the trk oncogene and polyoma virus middle T antigen. These results suggest that the class I revertants sustained mutations in one or more cellular genes essential for transformation by some, but not all, oncogenes. Our data suggest the existence of common biochemical pathways for transformation.

High-frequency changes in transcriptional activity in polyomavirus-transformed cell lines

We applied the Luria and Delbruck fluctuation test to analyze high-frequency changes in the phenotype of rat cells transformed by a plasmid carrying the polyomavirus middle T (pmt) gene. All of the transformed cell lines analyzed were capable of switching to the normal state with rates ranging from 10(-3) to 10(-2) per cell per generation. Analysis of both middle T antigen and middle T transcripts indicated that the reversion occurred by a mechanism involving a transcriptional block of the pmt locus. Cell lines containing two separate loci reverted with a lower rate, suggesting that phenotypic switching in these cells involved two independent events affecting each locus. The flat revertants mutated to the transformed state with rates in the range of 10(-5) to 5 X 10(-5) per cell per generation. To determine whether changes in pmt expression would affect neighboring sequences, we transfected a hybrid plasmid carrying pmt linked to the neo marker and selected either for morphological transformants or for G418-resistant cells. Although their coordinate regulation was not absolute, both genes were usually subject to the same changes, reflected by loss and reacquisition of transcriptional activity.

Genetic alterations of integrated avian sarcoma virus DNA sequences in transformed rat cells

Clones and subclones of Schmidt-Ruppin-RSV-D-(SRD-) infected rat cells that were isolated in soft agar have shown differences in their morphology. Some of the subclones were round or spindle-shaped cells with lower anchorage dependence and high growth rate, while others were more fibroblast-like and failed to overgrow one another. In correlation to their morphology, subclones with high degree of phenotypic transformation contained amplified amounts of full length proviral DNA or proviral fragments. The amplification affected the proviral DNA elements together with host cellular DNA sequences. We have also shown a relationship between the copy number of the proviruses in the cells, the level of expression of viral RNA, and between those two parameters and the various degrees of phenotypic transformation.

Variable stability of a selectable provirus after retroviral vector gene transfer into human cells

Human lymphoblasts deficient in the enzyme hypoxanthine-guanine phosphoribosyltransferase (HPRT) were infected with an amphotropic helper-free retroviral vector expressing human HPRT cDNA. The stability and expression of the HPRT provirus in five cell lines with different proviral integration sites were examined by determining HPRT mutation and reversion frequencies and by blot hybridization studies. Mutation to the HPRT-negative phenotype occurred at frequencies of approximately 4 X 10(-5) to 3 X 10(-6) per generation. Most mutations in each of the five cell lines were associated with partial or complete deletions or rearrangements of the provirus. Several mutants retained a grossly intact HPRT provirus, and in one such mutant HPRT shutdown resulted from a revertible epigenetic mechanism that was not associated with global changes in proviral methylation. Therefore, mutation and shutdown of the HPRT provirus in human lymphoblasts result from mechanisms similar to those reported for several other avian and mammalian replication-competent retroviruses.

Reversion to the nontransformed phenotype of Abelson murine leukemia virus-transformed cells and their subsequent retransformation

Two independent clones of fetal mink lung cells (CCL64) nonproductively transformed by Abelson murine leukemia virus (Ab-MuLV) were used to study spontaneous reversion to the nontransformed phenotype and subsequent retransformation of the revertants. One clone, D62, contained two complete Ab-MuLV proviruses and expressed polyprotein P120. The other clone, K49, contained four proviruses: three of them were complete and one represented a deletion mutant. In addition to P120, a new polyprotein, P60, was expressed in this clone. During the processes of reversion and retransformation proviral DNAs were conserved with respect to size and integration site. In contrast to the transformants, expression of Ab-MuLV P120, and in case of clone K49 also of P60, was blocked in revertant lines as a result of loss of transcription of proviral DNA. In retransformants, expression of Ab-MuLV P120 was found in both clones. However, no expression of P60 was detectable in retransformants of K49-derived revertants. Reversion to the nontransformed phenotype was associated with increased cytosine methylation in proviral DNA sequences, whereas in spontaneous retransformants methylation tended to resume control levels. These findings demonstrate regulation of viral oncogene mediated transformation by cytosine methylation and suggest that transcription of proviral DNA is under both viral and cellular control. They furthermore suggest that processes involved in regulation of proviral expression do not affect all such proviruses simultaneously in the same way.

Phosphatidylinositol kinase activity in virus-transformed and nontransformed cells

We assayed phosphatidylinositol (PI) kinase (EC 2.7.1.67) activity in detergent extracts of nontransformed or virus-transformed cells. Nontransformed chicken embryo fibroblasts (CEF) contain PI kinase activity with an apparent specific activity of 20 pmol/min per mg of protein. This activity sedimented as a single peak with a molecular weight of approximately 60,000 in a glycerol gradient, although immunoprecipitation with anti-p60src sera showed that the PI kinase activity is distinct from p60c-src. Extracts from CEF transformed by Rous sarcoma virus, Fujinami sarcoma virus, or avian sarcoma virus UR2 showed no elevation of PI kinase activity over nontransformed CEF. Removal of the oncogene products from extracts by immunoprecipitation did not change the level of PI kinase activity in extracts, suggesting that putative virus-coded PI kinases do not make a significant contribution to overall levels of PI kinase activity in transformed cells. Additionally, P140gag-fps was separated from cellular PI kinase by phosphocellulose chromatography. This partially purified fraction contained low PI kinase activity distinct from P140gag-fps, indicating that P140gag-fps has no detectable PI kinase activity.

Variable stability of a selectable provirus after retroviral vector gene transfer into human cells

Human lymphoblasts deficient in the enzyme hypoxanthine-guanine phosphoribosyltransferase (HPRT) were infected with an amphotropic helper-free retroviral vector expressing human HPRT cDNA. The stability and expression of the HPRT provirus in five cell lines with different proviral integration sites were examined by determining HPRT mutation and reversion frequencies and by blot hybridization studies. Mutation to the HPRT-negative phenotype occurred at frequencies of approximately 4 X 10(-5) to 3 X 10(-6) per generation. Most mutations in each of the five cell lines were associated with partial or complete deletions or rearrangements of the provirus. Several mutants retained a grossly intact HPRT provirus, and in one such mutant HPRT shutdown resulted from a revertible epigenetic mechanism that was not associated with global changes in proviral methylation. Therefore, mutation and shutdown of the HPRT provirus in human lymphoblasts result from mechanisms similar to those reported for several other avian and mammalian replication-competent retroviruses.

Phosphatidylinositol kinase activity in virus-transformed and nontransformed cells

We assayed phosphatidylinositol (PI) kinase (EC 2.7.1.67) activity in detergent extracts of nontransformed or virus-transformed cells. Nontransformed chicken embryo fibroblasts (CEF) contain PI kinase activity with an apparent specific activity of 20 pmol/min per mg of protein. This activity sedimented as a single peak with a molecular weight of approximately 60,000 in a glycerol gradient, although immunoprecipitation with anti-p60src sera showed that the PI kinase activity is distinct from p60c-src. Extracts from CEF transformed by Rous sarcoma virus, Fujinami sarcoma virus, or avian sarcoma virus UR2 showed no elevation of PI kinase activity over nontransformed CEF. Removal of the oncogene products from extracts by immunoprecipitation did not change the level of PI kinase activity in extracts, suggesting that putative virus-coded PI kinases do not make a significant contribution to overall levels of PI kinase activity in transformed cells. Additionally, P140gag-fps was separated from cellular PI kinase by phosphocellulose chromatography. This partially purified fraction contained low PI kinase activity distinct from P140gag-fps, indicating that P140gag-fps has no detectable PI kinase activity.

Preferential expression of the c-fps protein in chicken macrophages and granulocytic cells

We have studied the expression of the protein kinase activity of NCP98, the c-fps gene product, in several hemopoietic tissues of chickens as a function of the developmental stage of these organs. We found that in bone marrow, spleen, and bursa, maximum NCP98 kinase activity on a per-cell basis correlates with the peak of granulopoiesis in these organs. Furthermore, in a bovine serum albumin density gradient fractionation of bone marrow cells, granulocytic cells appeared to account for most of the NCP98 kinase activity. No correlation was found between the distribution of erythrocytic, lymphocytic, or thrombocytic cells and the distribution of the expression of NCP98 kinase activity. However, NCP98 protein and kinase activity were 10-fold higher in macrophages than in bone marrow. In addition, depletion by complement-mediated lysis of erythrocytic cells in bone marrow did not significantly reduce the total recovery of NCP98 kinase activity. These results argue for the specific expression of the c-fps gene product in granulocytic cells and macrophages.

Characterization of gP85gag as an antigen recognized by Moloney leukemia virus-specific cytolytic T cell clones that function in vivo

The gag membrane protein gP85gag, encoded by Moloney murine leukemia virus (M-MLV), was identified as a target molecule recognized by Moloney murine sarcoma virus--M-MLV (M-MSV--M-MLV)-specific cytolytic T lymphocyte (CTL) clones. Target cells infected with Ab-X-MLV, an M-MLV-derived mutant virus not encoding gP85gag, were not lysed by the CTL clones. The same CTL clones were shown previously to induce the destruction of M-MLV-induced tumor cells in the peritoneal cavity. We have now characterized CTL-resistant antigen-loss tumor cell variants that have lost the surface antigen, but which retain transcriptionally silent M-MLV genomes. A cloned antigen-loss variant that reverted in vitro to the CTL-susceptible phenotype reexpressed M-MLV genomes that had undergone an insertion event in the region of the viral DNA coding for the gag membrane protein. Intravenous injection of virus-specific CTL clones inhibited tumor formation in mice injected subcutaneously with M-MSV--M-MLV.

Deletion in the 3' pol sequence correlates with aberration of RNA expression in certain replication-defective avian sarcoma viruses

The RNA expression of a series of replication-defective recovered avian sarcoma viruses (rASVs) were studied. Abnormal-sized viral RNAs, both larger and smaller than the genome, were observed in the nonproducer cells infected with rASVs containing env and pol deletions. Each nonproducer clone contained a single provirus integrated at a unique site and expressed a unique RNA pattern. Upon rescuing of the sarcoma virus with a helper virus and subsequent cloning, the RNA pattern of individual nonproducer clones again displayed variation according to the integration sites. This was not seen in nondefective rASV or in rASVs containing only an env deletion. The aberrant RNA expression did not result from the lack of reverse transcriptase activity per se, since neither nonconditional nor temperature-sensitive mutants of RSV expressed abnormal viral RNAs in the absence of a functional reverse transcriptase. The abnormal RNA patterns could not be corrected in trans by helper virus functions. The unusual-sized RNAs in env- pol- rASV-infected cells are not due to splicing to alternative acceptor sites for src mRNA because there are no extra viral sequences between the 5' leader and the src sequences; instead, they are due to the presence of extra sequences, most likely of cellular origin, at the 3' ends of the viral RNAs. Based upon the extent of deletions in the viral genomes, the data suggest that deletion in the 3' pol region of those rASVs results in a cis effect on the transcription and processing of the 3' ends of viral RNAs. The unusual-sized viral RNAs are most likely due to read-through transcription from the right-hand terminus of provirus into downstream cellular sequences, followed by cleavage and polyadenylation at multiple sites of the 3' region of the RNA transcripts. The extent of read-through transcription appears to depend on the chromosomal location of the provirus.

Preferential expression of the c-fps protein in chicken macrophages and granulocytic cells

We have studied the expression of the protein kinase activity of NCP98, the c-fps gene product, in several hemopoietic tissues of chickens as a function of the developmental stage of these organs. We found that in bone marrow, spleen, and bursa, maximum NCP98 kinase activity on a per-cell basis correlates with the peak of granulopoiesis in these organs. Furthermore, in a bovine serum albumin density gradient fractionation of bone marrow cells, granulocytic cells appeared to account for most of the NCP98 kinase activity. No correlation was found between the distribution of erythrocytic, lymphocytic, or thrombocytic cells and the distribution of the expression of NCP98 kinase activity. However, NCP98 protein and kinase activity were 10-fold higher in macrophages than in bone marrow. In addition, depletion by complement-mediated lysis of erythrocytic cells in bone marrow did not significantly reduce the total recovery of NCP98 kinase activity. These results argue for the specific expression of the c-fps gene product in granulocytic cells and macrophages.

Analysis of the variations in proviral cytosine methylation that accompany transformation and morphological reversion in a line of Rous sarcoma virus-infected Rat-1 cells

Cells of the A11 lineage of Rat-1 contain a single complete Rous sarcoma provirus. Variation in the activity of this provirus accompanies fluctuations in the lineage between normal and transformed phenotypes. Increased proviral cytosine methylation of the doublet CpG in the tetranucleotide CCGG correlates with transcriptional inactivity and this pattern of cytosine hypermethylation is stable, even when the cells are transformed by another virus. However, transformation can also be induced by 5-azacytidine (but not by other mutagens) and in these transformants reduced proviral cytosine methylation is accompanied by increased proviral transcription. Differences in CCGG methylation between normal and transformed cells are found mainly in the 3' half of the provirus; sites near and within the src gene are heavily methylated only when the provirus is transcriptionally inactive. On the other hand, both transformed and normal A11 derivatives show little, if any, cytosine methylation of CCGG sequences in and flanking the 5' portion of the provirus.