The expression of pp60src and its associated protein kinase activity in cells infected with different transformation-defective temperature-sensitive mutants of Rous sarcoma virus

Inhibition of SV40 DNA replication by Rous sarcoma virus LTR enhancer

Simian virus 40 (SV40) late region recombinant constructs containing the Rous sarcoma virus (RSV) src gene along with RSV enhancer stimulated expression but completely abolished SV40 DNA replication. Constructs, in which the heterologous enhancer sequences were omitted, did replicate normally in African green monkey kidney cells and, in the presence of helper virus, gave rise to infectious progeny. Inhibition of SV40 DNA replication follows a cis-acting mechanism and is most likely due to a conformational change of the SV40 chromatin structure.

Crystallin gene expression and lentoid body formation in quail embryo neuroretina cultures transformed by the oncogenic retrovirus Mill Hill 2 or Rous sarcoma virus

The lens-specific proteins alpha and delta crystallins and lentoid bodies, structures that follow a differentiation pathway similar to that of the lens, regularly appear after 4 to 5 weeks in quail embryo neuroretina monolayer cultures. We have investigated the effects of the avian oncogenic retroviruses Mill Hill 2 and Rous sarcoma virus on this process. Quail embryo neuroretina cells transformed by Mill Hill 2 virus were established into permanent cultures that synthesized alpha and delta crystallins and contained stem cells for the production of lentoid bodies. In contrast, transformation with the Rous sarcoma virus mutant tsNY-68 blocked the appearance of mRNA crystallins, but cytoplasmic alpha and delta crystallin mRNA and alpha crystallin appeared 44 h after a shift to the nonpermissive temperature. However, delta crystallins and lentoid bodies were only present after 7 days. The crystallins of transformed quail neuroretina cultures were immunologically indistinguishable from those of quail lenses and of normal quail embryo neuroretina cultures.

Crystallin gene expression and lentoid body formation in quail embryo neuroretina cultures transformed by the oncogenic retrovirus Mill Hill 2 or Rous sarcoma virus

The lens-specific proteins alpha and delta crystallins and lentoid bodies, structures that follow a differentiation pathway similar to that of the lens, regularly appear after 4 to 5 weeks in quail embryo neuroretina monolayer cultures. We have investigated the effects of the avian oncogenic retroviruses Mill Hill 2 and Rous sarcoma virus on this process. Quail embryo neuroretina cells transformed by Mill Hill 2 virus were established into permanent cultures that synthesized alpha and delta crystallins and contained stem cells for the production of lentoid bodies. In contrast, transformation with the Rous sarcoma virus mutant tsNY-68 blocked the appearance of mRNA crystallins, but cytoplasmic alpha and delta crystallin mRNA and alpha crystallin appeared 44 h after a shift to the nonpermissive temperature. However, delta crystallins and lentoid bodies were only present after 7 days. The crystallins of transformed quail neuroretina cultures were immunologically indistinguishable from those of quail lenses and of normal quail embryo neuroretina cultures.

Modification of gap junctions in cells transformed by a temperature-sensitive mutant of Rous sarcoma virus

Prompted by our observation that a reduction in junctional permeance is one of the earlier events in the process of neoplastic transformation of a cell line by Rous sarcoma virus, we analyzed the gap junctions from these cells to determine if the basis of the reduction is a loss of junctional channels. The cells (normal rat kidney, or NRK) are infected with a temperature-sensitive mutant of Rous sarcoma virus, allowing one easily to manipulate the cells into and out of the transformed state, and hence also to manipulate the junctional permeance. Using freeze-fracture electron microscopy, we found that the number and size of the junctions did not change in parallel with the permeance changes we had previously characterized. There is, however, a significant rearrangement of the junctional particles to a more random configuration when the cells are transformed and a reversal to the more ordered pattern when the cells are shifted back to the normal phenotype. These changes do parallel the changes in junctional permeance. We conclude that the permeance of existing junctional channels is modified and that the change in permeance may involve a change in the interaction of the junctional channels with each other and/or the surrounding lipid domain.

Membrane association of the transforming protein of avian sarcoma virus UR2 and mutants temperature sensitive for cellular transformation and protein kinase activity

The localization of the transforming protein P68gag-ros of avian sarcoma virus UR2, which has a hydrophobic region at the N terminus of its ros-specific tyrosine kinase-encoding sequence, was examined by subcellular fractionation. P68 behaved as an integral membrane protein associated with the plasma membrane of transformed cells. P68 became membrane associated very rapidly in its biogenesis. Three temperature-sensitive mutants of UR2 were isolated and characterized. Cells infected with the mutants were temperature sensitive for morphological alteration and colony formation. The mutant P68 proteins were membrane associated in mutant-infected cells regardless of the temperature but were active as protein kinases only at the permissive temperature. The results suggest that P68 is a membrane-associated protein whose kinase activity plays a crucial role in UR2-mediated cell transformation.

Isolation and partial characterization of a monoclonal antibody to the Rous sarcoma virus transforming protein pp60src

Transformation of cells by Rous sarcoma virus is mediated by the product of the viral src gene, pp60src. A hybridoma cell line producing an immunoglobulin G3 antibody to pp60src was isolated after lymph node cells from immune mice were fused with mouse myeloma cells (P3-NS1-1). Mice were immunized with p60src purified from Escherichia coli cells expressing the src gene product. The monoclonal antibody immunoprecipitated pp60src from Rous sarcoma virus-transformed cells and recognized an antigenic determinant located in the amino-terminal third of the pp60src protein.

Site-directed mutagenesis of the src gene of Rous sarcoma virus: construction and characterization of a deletion mutant temperature sensitive for transformation

Transformation of cells by Rous sarcoma virus results from the expression of the viral src gene product, pp60src. Site-directed mutagenesis techniques have been used to construct defined deletion mutations within the src gene of Prague A strain of Rous sarcoma virus. The deletion of DNA sequences at the Bg/II restriction site in the src gene yielded both transformation-defective mutants (tdCH4, 64, and 146) and a mutant temperature sensitive for morphological transformation (tsCH119). The genome of tsCH119 contains an in-phase deletion of approximately 160 base pairs, which mapped to the immediate 3' side of the Bg/II restriction site. Upon infection of chicken cells, tsCH119 encoded a structurally altered src protein, pp53src, containing a deletion of amino acid residues 202 to 255. Immune complexes containing pp53src isolated from tsCH119-infected cells grown at 41 degrees C exhibited only 50% less tyrosine-specific kinase activity than immune complexes isolated from cells grown at 35 degrees C. pp53src immunoprecipitated from tsCH119-infected cells grown at either 35 or 41 degrees C contained phosphoserine and phosphotyrosine. We suggest that tsCH119 represents a class of mutants containing mutations mapping within a functionally important domain of the src protein, distinct from the domain specifying the protein kinase activity.

Half-life of the Rous sarcoma virus transforming protein pp60src and its associated kinase activity

The half-life of metabolically labeled pp60src of the Prague A strain of Rous sarcoma virus and of several transformation-defective, temperature-sensitive mutants was investigated by pulse-labeling infected cells with [35S]methionine, chasing for different times, and immunoprecipitating pp60src with tumor-bearing rabbit serum. These experiments showed that pp60src has a short half-life of approximately 60 min under normal physiological conditions and that the mutant pp60src proteins have similar half-lives to the wild type, irrespective of whether the cells are kept at the nonpermissive (42 degrees C) or permissive (35 degrees C) temperature. The half-life of the pp60src -associated kinase activity was determined by monitoring its decay by the immunoglobulin G heavy chain assay after the cells had been treated with several inhibitors of protein synthesis. In these experiments the kinase half-life was much longer than expected from the half-life of pp60src. The apparent contradiction between the half-lives of the kinase activity and the [35S]methionine-labeled pp60src protein could be resolved by the observation that treatment of cells with inhibitors of protein synthesis stabilized pp60src, resulting in a greatly extended half-life. Inhibitors of protein synthesis also extended the half-life of the gag precursor polypeptide, Pr76, suggesting that a host factor(s) may be required for the efficient intracellular processing of this polypeptide to the gag proteins.

Role of p60src kinase activity in the induction of neuroretinal cell proliferation by rous sarcoma virus

Expression of the src gene of Rous sarcoma virus (RSV) in chicken embryo neuroretinal (NR) cells results in morphological transformation and sustained proliferation of a normally resting cell population. We have previously reported the isolation of mutants of RSV which retain full growth-promoting activity while displaying reduced transforming properties. Two such mutants, PA101 and PA104, were used to investigate whether the p60src-associated kinase activity is required for the mitogenic function of src. A comparison of the patterns of phosphorylation of wild-type and mutant p60src revealed that the phosphorylation of tyrosine residues of p60src of PA104 was markedly reduced, whereas the relative amount of phosphotyrosine in p60src of PA101 was comparable to that of the wild-type protein. In vitro kinase activity of p60src immunoprecipitated from NR cells infected with PA101 or PA104 as measured by phosphorylation of the heavy chains of specific immunoglobulin G molecules was 1/10 that of the wild-type molecule. Moreover, when NR cells infected with mutants temperature sensitive for mitogenic capacity were maintained at a temperature either permissive or restrictive for cell growth, quantitation of kinase activity indicated that proliferation of NR cells could not be linked to the absolute level of in vitro kinase activity of p60src. Transformation of NR cells by wild-type RSV resulted in a 10-fold increase in total cellular phosphotyrosine and in the phosphorylation of tyrosine residues of a 34K protein, a possible in vivo substrate for p60src. In contrast, phosphorylation of tyrosine residues of cellular targets was markedly reduced in NR cells infected with PA101 or PA104. These results indicate that the mitogenic capacity of RSV in NR cells does not require elevated levels of p60src kinase activity.

Half-life of the Rous sarcoma virus transforming protein pp60src and its associated kinase activity

The half-life of metabolically labeled pp60src of the Prague A strain of Rous sarcoma virus and of several transformation-defective, temperature-sensitive mutants was investigated by pulse-labeling infected cells with [35S]methionine, chasing for different times, and immunoprecipitating pp60src with tumor-bearing rabbit serum. These experiments showed that pp60src has a short half-life of approximately 60 min under normal physiological conditions and that the mutant pp60src proteins have similar half-lives to the wild type, irrespective of whether the cells are kept at the nonpermissive (42 degrees C) or permissive (35 degrees C) temperature. The half-life of the pp60src -associated kinase activity was determined by monitoring its decay by the immunoglobulin G heavy chain assay after the cells had been treated with several inhibitors of protein synthesis. In these experiments the kinase half-life was much longer than expected from the half-life of pp60src. The apparent contradiction between the half-lives of the kinase activity and the [35S]methionine-labeled pp60src protein could be resolved by the observation that treatment of cells with inhibitors of protein synthesis stabilized pp60src, resulting in a greatly extended half-life. Inhibitors of protein synthesis also extended the half-life of the gag precursor polypeptide, Pr76, suggesting that a host factor(s) may be required for the efficient intracellular processing of this polypeptide to the gag proteins.

A ts T mutant of Schmidt Ruppin strain of Rous sarcoma virus restricted at 39.5 degrees C for the morphological transformation and the tumorigenicity of chicken embryo fibroblasts

In order to investigate a possible correlation between in vitro transformation and tumorigenicity in ovo, a new temperature-sensitive class T mutant of Rous Sarcoma Virus was isolated with a lower (39 degrees 5C) restrictive temperature for morphological transformation. This lower restrictive temperature was compatible with the survival of chicken and duck eggs for the tumorigenicity studies. In chicken embryo fibroblasts (CEF) infected by this new mutant, PA 17, and cultured at 39 degrees 5C, increase of hexose uptake, plasminogen activator production and anchorage-independent growth were only partially restricted, requiring incubation at 41 degrees 5C for a complete shut-off. Tumorigenicity in chicken and duck eggs inoculated with CEF infected and transformed by PA 17 was restricted at 39 degrees 5C, correlating well with the restriction of morphological transformation at this temperature. The kinase activity of the transforming protein pp60src in lysates of PA 17 infected cells cultured at permissive or restrictive temperatures was labile in RIPA buffer, as in the case of some previously examined ts T mutants. In the non-ionic detergent NP40 buffer, the kinase activity of PA17 infected cell lysates was better conserved and showed a moderate temperature dependence. These results suggest that, in spite of the correlations between the transformed cell phenotype in vitro and cell tumorigenicity in ovo, it is difficult to establish a quantitative relationship.