A. Golde

Effect of transformation of chicken cells by Rous sarcoma virus on in vitro phosphorylation of nuclear non-histone proteins☆

Abstract The use of virus temperature-sensitive (ts) mutants for transformation allows us to determine the effect of transformation on different alterations in cell morphology and cell functions. We studied the kinase activity of nuclear non-histone proteins (NHP) extracted from chicken embryo fibroblasts (CEF), both infected and non-infected with a ts mutant of Rous sarcoma virus (Schmidt Ruppin strain, subgroup A, T class) and cultivated at the restrictive (41°C) and permissive (37 °C) temperature for transformation. The endogenous in vitro phosphorylation of NHP extracted from stationary ts-infected cultures increased by 300% when the cells were cultivated at 37 instead of 41°C. This increase is probably a consequence of the expression of transformation, since it was not observed when NHP were extracted from non-infected CEF maintained either at 41 or 37 °C. The increase in endogenous phosphorylation of NHP does not seem to be entirely due to a change in the density-dependent inhibition of cell metabolism in transformed cells, as an increase in protein phosphorylation was observed when the ts cultures were in both exponential growth phase and plateau phase. The urea-polyacrylamide gel electrophoresis of 32P-phosphorylated proteins showed that the increase in phosphorylation observed when growing ts cells were maintained at 37 instead of 41 °C was mostly due to the stimulation of one fraction (fraction d), as if the increase in phosphorylation of this fraction was linked to the expression of transformation. When the ts cultures were in stationary phase, the enhancement of the phosphorylation of proteins observed when cells were maintained at 37 instead of 41 °C was due to stimulation of the phosphorylation of all protein fractions, and particularly of fractions d and b. When phosvitin was used as a substrate, the kinase activity of NHP extracted from ts-infected cells was increased 300% when the cells were cultivated at 37 instead of 41 °C. On the other hand, the phosvitin kinase activity of NHP extracted from non-infected cells decreased when the cells were maintained at 37 instead of 41 °C. Thus, the transformation of cells induced an increase in the phosvitin kinase activity of nuclear NHP. When ts cells were cultivated at 41 °C until saturation density and then transferred to 37 °C for 3 h before extraction of proteins, a 37% increase in phosvitin kinase activity of NHP was observed, as compared with the activity of proteins extracted from cells left at 41 °C. Thus, the change in kinase activity is an early event in the process of transformation.

Purification from transformed mouse fibroblast of a cell growth inhibitor which is an IGF-binding protein.

From medium conditioned by 3T3 cells, we had previously purified an inhibitory factor of Mr 45 kDa which we termed IDF45 (inhibitory diffusible factor). The protein was able to 100% inhibit stimulation induced in CEF by 1% calf serum and to reversibly prevent cell growth. We then demonstrated that IDF45 was an IGF-binding protein. Our results suggested that IDF45 was a bifunctional molecule able to bind IGF and to inhibit DNA synthesis stimulated by this hormone, but also to inhibit stimulation of DNA synthesis induced by another growth factor in serum. Indeed, its N terminal amino acid sequence has great homology with that of IGFBP-3 and IDF45 is now proposed to be named IGFBP-3 (mouse IGF binding protein). Present results show that Ha-ras transfected 3T3 cells (EJ cells), like 3T3 cells, secrete a mIGFBP-3 molecule. In addition, transfected cells secrete a doublet of an IGF-binding protein (IGFBP-28) of Mr 28 kDa which is not secreted by untransformed 3T3 cells. IGFBP-28 has been purified and characterized in this work. Various results suggest that IGFBP-28 is not a degradation product of mIGFBP-3. Its N terminal amino acid sequence was different from that of mIGFBP-3. IGFBP-28 inhibited DNA synthesis stimulated by IGF-I, but much more IGFBP-28 protein than mIGFBP-3 was required to prevent this stimulation. In agreement with this result, IGFBP-28 has low affinity for IGF-I. In contrast, IGFBP-28 has high affinity for IGF-II. Like mIGFBP-3, IGFBP-28 was able to inhibit the stimulation induced by serum in CEF and to reversibly prevent growth, though with a specific activity lower than that of mIGFBP-3. It has also the capacity to inhibit stimulation of DNA synthesis induced by high molecular weight serum proteins depleted in IGF-I and II. In conclusion we have shown that transformation of 3T3 cells with Ha-ras induced the synthesis of a new IGF binding protein in medium conditioned by normal 3T3 cells. Our results suggest that IGFBP-28 like mIGFBP-3 is a bifunctional protein able to inhibit stimulation induced by IGF and by serum proteins different from IGFs.

Difference in biological effects between insulin-like growth factor binding protein 1 and 3.

Insulin-like growth factor binding proteins 1 and 3 are essentially known as regulators of IGF bioactivity. However, we previously showed that IGFBP-3 was able, in chick embryo fibroblast (CEF), to 100% inhibit DNA synthesis stimulated by calf serum, while the maximal inhibition found with IGFBP-1 was 60%, suggesting a difference between the two IGFBPs in their biological functions. Results of the present work agree with this assumption: (a) Recombinant human IGFBP-3, like rat IGFBP-3, was able to 100% inhibit DNA synthesis stimulation induced by human serum, while this stimulation was 75% decreased by IGFBP-1. However, the most striking difference was observed when the effects of the two IGFBPs were compared for stimulation induced by a serum growth factor (SGF) fraction depleted in IGFs. Stimulation induced by the SFG fraction was more significantly decreased (p < 0.001) by IGFBP-3 than by IGFBP-1. The mean percent inhibition +/- SEM was 67.1 +/- 2.5 in the presence of IGFBP-3 (200 ng/ml) and 29.3 +/- 2.7 and 34.2 +/- 4 in the presence of 200 and 400 ng/ml IGFBP-1 respectively. Inhibition by 200 ng/ml IGFBP-1 and inhibition by 6 ng/ml IGFBP-3 were additive. However, inhibition by IGFBP-3 and that by IGFBP-1 were no longer additive at high concentrations of IGFBP-3, which might thus replace IGFBP-1. (b) FGF stimulation of CEF was similarly inhibition (65% and 70%) by IGFBP-1 and IGFBP-3. (c) TGF beta stimulation of CEF was more strongly decreased by IGFBP-3 (90%) than by IGFB-1 (60%).(ABSTRACT TRUNCATED AT 250 WORDS)

Inhibition by quercetin of the release of density dependent-inhibition of cell growth in RSV-transformed chicken cells.

The expression of src gene in dense cultures of chick embryo fibroblasts (CEF) infected by a thermosensitive mutant (NY68) of RSV released density-dependent inhibition of growth and induced in these cells a large increase in DNA, RNA and protein synthesis. This stimulation of cellular metabolism was abolished in the presence of quercetin. Furthermore, quercetin added to the culture medium also inhibited the stimulation of pp60src kinase due to the expression of transformation.

Characteristics of Infection by RSV. I. Non-Requirement for the S Phase of Cellular DNA Synthesis

The relationship between the position of chick embryo fibroblasts in the mitotic cycle and their susceptibility to infection by B-RSV (RAVI) was studied in synchronized cultures. The pattern of virus

Early release of the density-dependent inhibition of phosphate uptake and ATP synthesis after src gene expression in chick embryo fibroblasts

Our results showed that the expression of the src gene in chick embryo fibroblasts (CEF) released the density-dependent inhibition (DDI) of phosphate metabolism (phosphate uptake and phosphorylation of small organic compounds). With increasing cell density, phosphate metabolism decreased by 58% in normal CEF and, in contrast, increased by 20% in Rous sarcoma virus (RSV)-transformed CEF. The same change in the DDI was observed in CEF infected by NY68 (a ts mutant for transformation of RSV) and maintained at the permissive temperature (37 degrees C) instead of the restrictive temperature (41.5 degrees C) for the expression of transformation. An interesting feature was that the release of the DDI of phosphate metabolism was an early event in the process of transformation, since it was almost concomitant with the stimulation of the pp60 src kinase activity following the shift from 41.5 to 37 degrees C of NY68 CEF. The phosphorylation of small organic compounds (Po) was more strongly increased by the change in temperature than was 32Pi accumulation. Furthermore, the percentage increases of Po and adenosine triphosphate (ATP) labelling with 32P were similar, suggesting that the expression of src gene enhanced ATP synthesis. In glucose-free medium, the stimulation of Po-labelling was still observed but was decreased. Therefore the activation of glycolytic activity is not an absolute requirement, but is necessary for the maximum effect of transformation on the release of DDI of phosphate metabolism. Oligomycin added in complete medium did not prevent the increase in Po-labelling. From these results, we assumed that ATP turnover was stimulated as a consequence of enhanced ATP degradation. We verified that the stimulation of Po phosphorylation was not a consequence of increased ATP utilization for RNA or protein synthesis. The stimulation of Po labelling was specifically abolished by quercetin. This drug inhibited the transformed cells more strongly than the non-transformed cells.

Rous sarcoma virus-induced changes in the pattern of phosphorylation of non-histone nuclear proteins

We here studied the protein kinase activity and in vitro phosphorylable sites of non-histone nuclear proteins, 0.4 M NaCl extracts (mostly chromosomal proteins) from chick embryo fibroblasts (CEF), infected or not with a Schmidt Ruppin strain subgroup A of Rous sarcoma virus (RSV). The infection and transformation of chick fibroblasts by RSV induced an increase in kinase activity and endogenous phosphorylation of non-histone chromosomal (NHC) proteins. The stimulation, by a change of medium, of the proliferation of dense cultures of normal chick fibroblasts also induced an increase in the kinase activity and endogenous phosphorylation of NHC proteins. However, two-dimensional gel electrophoresis of the 32P-phosphorylated proteins showed that stimulation due to a change of medium and that due to the expression of transformation were very different. The stimulation by a change of medium increased to a greater or lesser extent the phosphorylation of the different NHC proteins, with no fundamental variations in the pattern of protein phosphorylation. In contrast, RSV infection induced significant changes in the pattern of protein phosphorylation. One of the most striking feature was the large increase of amount and phosphorylation of high molecular weight (HMW) proteins in particular of phosphoproteins having an evaluated molecular weight (MW) of 78 K and 82 K and pI greater than 8.2. The percent of phosphotyrosine residues in NHC proteins was clearly increased when the proteins were extracted from transformed cells instead of normal cells. But the alkaline treatment of two-dimensional gel electrophoresis indicated that the 80 K phosphoproteins did not contain phosphotyrosine residues, and thus cannot be considered as substrates for pp60src kinase.

Study of pp60v-src protein kinase activity in synchronized chicken embryo fibroblasts infected with Rous Sarcoma Virus☆

Chicken embryo fibroblast (CEF) cultures, synchronized by the addition of serum to stationary cells, were exposed to Schmidt-Ruppin strain of Rous Sarcoma Virus (SR-RSV) and the appearance of pp60v-src protein kinase activity was examined through the cell cycle. In cells infected either at the beginning or at the end of G1, the onset of pp60v-src protein kinase activity was coincidental, closely following mitosis, with a delay between the infection of cells with SR-RSV and the appearance of protein kinase activity of about 20 and 16 h, respectively. In cells infected during the S phase this delay was 16 h, as observed for late G1 cells. These experiments show that the activity of pp60v-src protein kinase, which cannot be detected before the first mitosis following infection does not depend on G1. The aphidicolin prevented protein kinase activity if added before or at the beginning of S phase, but not if added later, which is presumably related to the inhibition of S phase, required for provirus integration. The use of colcemid, which suppresses cell division, did not inhibit but delayed the appearance of protein kinase activity. These results show that the synthesis of an active oncogene product, such as pp60v-src protein kinase, depends on both S phase and mitosis.

Probable synchronous replication of mitochondrial DNA in cultures of chick embryo fibroblasts

Cultures of chick embryo fibroblasts were synchronized using a procedure previously described. The profile of incorporation of tritiated thymidine showed a main peak of nuclear DNA replication followed by a small peak between 18 and 24 hr after induction of the cell division, and representing 10 to 25% of the main peak. To identify this small peak, cells were treated with ethidium bromide (EB) chloramphenicol (CAP) or 9-B-D arabinofuranosyl adenine (Ara-A). When EB (1 μg ml-1) and CAP (25 μg ml-1) were added at time of induction of mitosis (T0) or 14 hr later (T14) the small peak was suppressed whereas the main peak was not decreased. On the contrary, only the main peak was suppressed when Ara-A was added at T0 or T14.These results suggest that the peak might correspond to the synchronous replication of the mitochondrial DNA during the G2 and M phases of the cell division cycle.

Characteristics of Infection by RSV

The duration of the latent period of RSV was studied in unsynchronized chicken cells using two methods. First, RAVI-producing cells were infected with Schmidt-Ruppin strain of Rous sarcoma virus (SR-R