Endogenous protein phosphorylation in adhesive plaques of substrate-attached fibroblasts

Endogenous protein kinases and acceptor proteins in the focal adhesion plaques of monolayer cells were studied using [γ-³²P]ATP as exogenous substrate. Two major phosphoproteins, p135 and pp105, besides some minor phosphoproteins, were phosphorylated in the substrate-attached material after dislodgement of cells. Evidence was obtained, that suspension cells leave the same components on the wall of the culture vessel, resulting from cell collisions with the wall and not from passive adsorption of secreted components or disintegrated cellular material.     

Isolation and localization of phosphoprotein pp 135 in the nucleoli of various cell lines

Phosphoprotein pp 135 is one of the dominant proteins endogenously phosphorylated in cellular sonicates during short-time exposure to [gamma-32P]ATP. Mouse cells growing exponentially show the highest pp 135 level as determined by endogenous phosphorylation and immunobinding assays. Disruption of cells in the absence of calcium at low magnesium concentration renders more than 90% pp 135 into the cytosolic fraction. A five-step purification yields greater than 95% pure pp 135. The cellular location of pp 135 was determined with a rat anti-(mouse pp 135) serum by immunofluorescence in mouse cell lines and cryostat sections of normal mouse tissue. We observed fluorescence predominantly of nucleolar structures, confirmed by studies of isolated nuclei and nucleoli. Cross-reacting nucleolar phosphoproteins were identified in cell lines of other species with molecular masses of 128 kDa (human), 135 kDa (hamster) and 118 kDa (Drosophila). Endogenous phosphorylation of pp 135 investigated with purified mouse nucleoli showed optimal activity at isotonicity, pH 7.3, in the presence of 10 mM magnesium ions.     

Characterization of specific differences in protein phosphorylation of the plasma membrane and the endoplasmic reticulum of mouse fibroblasts.

Endogenous phosphorylation was studied with highly purified fractions of the plasma membrane and the endoplasmic reticulum of SV40-transformed mouse fibroblasts using [gamma-32P]ATP and [gamma-32P]GTP as precursors. With ATP maximum overall incorporation of 32P into both membrane fractions occurred at pH 7.8 in the presence of 10 mM MgCl2 after incubation for 1 min. GTP could be utilized only by the plasma membrane fraction showing maximum incorporation of 32P at pH 7.8 and 10 mM MgCl2 after incubation for 3 min. The pattern of phosphoproteins of the plasma membrane is represented by more than 15 proteins whereas the endoplasmic reticulum essentially contained only one phosphorylated component of 35 000 molecular weight. The comparison of ATP- and GTP-specific phosphorylation of the plasma membrane revealed GTP to be a less efficient precursor yielding a similar phosphoprotein pattern with one significant difference: the GTP-specific main component exhibited a molecular weight of about 100 000 and the ATP-specific main component a molecular weight of 110 000. The relative distribution of individual phosphoproteins in the pattern of the plasma membrane was dependent on pH but not on MgCl2 concentration or time of incubation. Increasing concentrations of plasma membrane protein altered the patterns of phosphoproteins dramatically: At high protein concentrations the ATP-specific main component (Mr = 110 000) was no more phosphorylated whereas with GTP the main component Mr = 100 000 was essentially the sole phosphorylated protein.     

Phosphorylations of the subcellular matrix in cells transformed by Rous' sarcoma virus

The transforming protein of Rous' sarcoma virus (RSV) is a phosphoprotein of Mr 60 000 (pp60src) which displays protein kinase activity specific for tyrosine residues; pp60src is associated with the plasma membrane and is recovered in the detergent-insoluble material which represents the subcellular matrix of the cell. After phosphorylation of this material of RSV-transformed cells with [gamma-32P]ATP, five phosphoproteins have been detected which are not seen in normal cells. These proteins (Mr = 135 000, 125 000, 75 000, 70 000, 60 000) contain phosphotyrosine. Their phosphorylation is strongly inhibited by anti-pp60src antibodies. In cells transformed by a temperature-sensitive mutant of RSV, these phosphoproteins, present at the permissive temperature, are no longer detected at the non-permissive temperature. It is concluded that these phosphorylations are mediated by pp60src protein kinase activity. This supports a possible role of the phosphorylation of cytoskeletal proteins in the transformation process.     

Characterization of the Rous sarcoma virus transforming gene product

This report describes quantitative results of in vitro phosphorylation of the Rous sarcoma virus transforming gene product, pp60src, using ATP or GTP as phosphate donors. The Km values for the phosphorylation of pp60src by ATP and GTP were similar (10-36 and 25-36 microM, respectively) and the Vmax values were different (5-7 and 1.5-1.7 nmol min-1 mg-1 of pp60src, respectively). The radiolabeling of pp60src by [gamma-32P] ATP was inhibited by ADP and dATP at 20-fold higher concentrations by 75 and 83%, respectively. Other nucleotides served as weaker inhibitors under the same conditions. The radiolabeling of pp60src by [gamma-32P]GTP had lower specificity for this nucleotide, since ATP, dATP, ADP, dGTP, GDP, and TTP had at least a 50% inhibitory effect. The phosphorylated products of approximate Mr = 60,000 that were produced with ATP or GTP were shown to be the same protein molecule since they both could be immunoprecipitated with antibody raised against p60src produced by bacterial recombinants. Structural analysis revealed that the use of GTP resulted in phosphorylation of a tyrosine residue on the COOH-terminal region of pp60src, apparently the same site which contains the tyrosine phosphorylated in infected cells. In contrast, the use of ATP resulted in phosphorylation of several additional tyrosine residues on the NH2-terminal region of the molecule. In thermolability studies, the t1/2 values for the phosphorylation of pp66src in preparations from wild type virus-infected chicken cells were 5.1 min for both ATP and GTP, whereas the t1/2 values for the phosphorylation of pp60src in preparations from temperature-sensitive transformation mutant-infected cells were 1.1 min for both phosphate donors. Similar observations were found with alpha-casein as substrate.     

Phosphorylation of endogenous proteins of bovine retina rod outer segments

The components of bovine rod outer segments (ROS) and water-soluble extracts of ROS were separated by SDS-electrophoresis after incubation with [gamma-32P]ATP or [gamma-32P]GTP at different experimental conditions. After that gels were autoradiographed to reveal the phosphorylated intermediates. Our results suggest, that ROS contains the following protein kinase systems: 1) water-soluble cAMP-dependent protein kinases, that uses ATP, but not GTP, and phosphorylates the water-soluble 30 000 molecular weight protein; 2) protein kinase that uses GTP (probably, ATP also) and phosphorylates the 20 000 molecular weight protein in light-adapted ROS; 3) water-soluble cyclic nucleotide- and Ca2+-independent protein kinase that uses ATP rather than GTP and phosphorylates the water-soluble 70 000 molecular weight protein. The concentrations of phosphorylated intermediates in bovine ROS are estimated.     

Protein kinase activity of bovine retina rod outer segments

Dark-adapted pure bovine rod outer segments (ROS) (A280/A500--2.1) can be phosphorylated in the presence of [gamma-32P]ATP and [gamma-32P]GTP. The constant levels of phosphorylation, reached within 10--15 min, are 100 +/- 30 pmol 32P/nmol of rhodopsin for [gamma-32P]ATP and 2--4 pmol 32P/nmol of rhodopsin for [gamma-32P]GTP. These processes are not controlled by 10(-4)--10(-8) cAMP, cGMP or Ca2+, but are inhibited at higher concentrations of these agents. In the presence of histone the constant level of phosphorylation is increased up to 200 +/- 30 pmol 32P/nmol of rhodopsin for [gamma-32P]ATP, but is not changed when [gamma-32P]GTP is used. 10(-5) M cAMP is found to activate the phosphorylation in the presence of histone and [gamma-32P]ATP by 5--6 times. All this evidences that ROS contains cAMP-dependent protein kinase, which utilizes ATP, but not GTP. Moreover, ROS contains cyclic nucleotides- and Ca2+-independent protein kinase. These protein kinases are the ROS endogenous enzymes. This is shown in experiments on separation of pure ROS in a sucrose density gradient.     

Phosphorylation of external cell-surface proteins by an endogenous ecto-protein kinase of goat epididymal intact spermatozoa

Intact spermatozoa from goat cauda epididymides possess an ecto-(cyclic AMP-independent protein kinase) activity that causes transfer of the terminal phosphate of exogenously added [gamma-32P]ATP to the serine and threonine residues of several endogenous plasma-membrane phosphoproteins located on the external cell surface. Cyclic AMP, cyclic GMP, calmodulin and muscle cyclic AMP-dependent protein kinases I and II had no appreciable effect on the rate of phosphorylation of ecto-proteins by the intact cells. The ecto-enzyme is not derived from the catalytic subunit of a cyclic AMP-dependent kinase. Sperm ecto-kinase activity is not due to contamination of broken cells or any possible cell damage during incubation and isolation of spermatozoa. The phosphorylation reaction was linear for approx. 1 min and there was no detectable uptake of ATP by these cells. The activity of the ecto-kinase was strongly inhibited by proteinases and by the membrane-nonpenetrating surface probes. The products of the reaction were associated with the intact cells and the 32P of the labelled cells was largely lost when treated with Triton X-100 or proteinases: trypsin and pronase. These data are consistent with the view that the observed protein kinase and the phosphoproteins are located on the external surface of spermatozoa. Vigorously forward-motile whole spermatozoa showed a relatively high capacity to phosphorylate ecto-proteins that undergo rapid turnover. The results suggest the occurrence of a novel coupled-enzyme system (ecto-protein kinase and phosphoprotein phosphatase) on the sperm external surface that may modulate sperm physiology by determining the phosphorylated states of the ecto-proteins.     

Localization of phosphoprotein PP 105 in cell lines of various species

The cellular location of phosphoprotein pp 105 was determined in various mouse cell lines with rabbit anti mouse pp 105 serum. Immunofluorescence was predominantly observed in the nucleoli in addition to a diffuse but weaker fluorescence of the whole nucleus. Cell surface fluorescence was obtained only with cells grown in suspension cultures. The presence of pp 105 in normal mouse tissue was demonstrated with tissue extracts by immunobinding assays. Cross-reacting phosphoproteins with the same molecular weight were detected in hamster and human cell lines as well as in chicken cartilage cells and Drosophila embryonic cells. Endogenous phosphorylation of pp 105 studied with purified mouse nucleoli showed optimal activity at isotonicity, pH 8.7, in the presence of 10 mM magnesium.     

Evidence of protein-tyrosine kinase activity in the bacterium Acinetobacter calcoaceticus

Protein phosphorylation was investigated in the bacterium Acinetobacter calcoaceticus both in vivo and in vitro. In cells grown with [32P]orthophosphate, several radioactive phosphoproteins were detected by gel electrophoresis and autoradiography. These proteins were shown to contain phosphoserine, phosphothreonine, and a relatively large proportion of phosphotyrosine residues. Incubation of cellular extracts with [gamma-32P] ATP also resulted in the phosphorylation of several proteins. At least four of them, namely an 81-kDa protein, were modified at tyrosine. No protein labeling occurred when extracts were incubated with [gamma-32P] ATP or [14C]ATP. Moreover, phosphoproteins were insensitive to snake venom phosphodiesterase. All together these results indicate that A. calcoaceticus harbors different protein kinases including a protein-tyrosine kinase activity. Further analysis of this activity showed that it has little, if any, functional similarity with eukaryotic protein-tyrosine kinases.     

Casein kinase II accumulation in the nucleolus and its role in nucleolar phosphorylation

A rabbit antiserum against highly purified casein kinase II from mouse tumor cells was used for immunolocalization of the enzyme in fixed, permeabilized mouse cells. Casein kinase II was highly accumulated in nucleoli compared to the extra-nucleolar space of the nucleus or to the cytoplasma. Casein kinase II samples highly purified from the cytoplasma, from the extra-nucleolar fraction of the nucleus or from nucleoli exhibited no differences with respect to structure and function. All samples originally had an alpha 2 beta 2 structure (alpha, 42 kDa; beta, 24 kDa) showing formation of the alpha'-chain (36 kDa) only in the late steps of purification. The isoelectric point of the alpha-chain of all three samples was pH 7.7 and that of the beta-chain was pH 6.4-6.6. Using ATP or GTP, all three casein kinase II samples gave the same results of maximum phosphorylation of purified nucleolar marker phosphoproteins pp105/C23, pp135 and B23, yielding pp135 as one of the most highly phosphorylated proteins with an incorporation of about 75 phosphate groups per molecule pp135. Studies on optimum conditions of phosphorylation of nucleolar phosphoproteins by casein kinase II revealed that each of the protein substrates individually responded to alterations of assay parameters such as pH, magnesium ion and sodium chloride concentrations indicating that predominantly individual structural criteria were responsible for optimum phosphorylation. The determination of the apparent Km of casein kinase II for purified nucleolar phosphoproteins yielded values of 0.15 microM (pp105/C23), 0.1 microM (pp135) and 1.0 microM (B23) identifying them as high-affinity substrates of casein kinase II.     

Stimulation of rhodopsin phosphorylation by guanine nucleotides in rod outer segments

Porcine rod outer segment (ROS) proteins were phosphorylated in the presence of [gamma-32P]ATP and Mg2+, separated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, and detected by autoradiography. The phosphorylation of rhodopsin, the major protein-staining band (Mr approximately 34 000-38 000), was markedly and specifically increased by exposure of rod outer segments to light; various guanine nucleotides (10 microM) including GMP, GDP, and GTP also specifically increased rhodopsin phosphorylation (up to 5-fold). Adenine nucleotides (cyclic AMP, AMP, and ADP at 10 microM) and 8-bromo-GMP (10 microM) or cyclic 8-bromo-GMP (10 microM) had no detectable stimulatory effect on rhodopsin phosphorylation. GTP increased the phosphorylation of rhodopsin at concentrations as low as 100 nM, and guanosine 5'-(beta, gamma-imidotriphosphate), a relatively stable analogue of GTP, was nearly as effective as GTP. Maximal stimulation of rhodopsin phosphorylation by GTP was observed at 2 microM. GMP and GDP were less potent than GTP. Both cyclic GMP and GMP were converted to GTP during the time period of the protein phosphorylation reaction, suggestive of a GTP-specific effect. Transphosphorylation of guanine nucleotides by [32P]ATP and subsequent utilization of [32P]GTP as a more effective substrate were ruled out as an explanation for the guanine nucleotide stimulation. With increasing concentrations of ROS proteins, the phosphorylation of rhodopsin was nonlinear, whereas in the presence of GTP (2 microM) linear increases in rhodopsin phosphorylation as a function of added ROS protein were observed. These results suggest that GTP stimulates the phosphorylation of rhodopsin by ATP and that a GTP-sensitive inhibitor (or regulator) of rhodopsin phosphorylation may be present in ROS.     

Mechanism of endogenous phosphorylation of microtubule proteins during GTP-induced microtubule assembly and implications for stability of the assembled structures

Cycle-purified microtubule protein from mammalian brain incorporated [32P]Pi upon incubation with [gamma-32P]GTP under the conditions used to promote assembly. This phosphorylation also occurred in the same proteins when phosphorylated with [gamma-32P]ATP and was only slightly stimulated by cAMP. GTP was a much less effective substrate than ATP. The transfer of phosphoryl groups from [gamma-32P]GTP to endogenous proteins followed a linear time-course and was stimulated by low concentrations of ATP and, more efficiently, by ADP. These data are in agreement with the predictions derived from a mechanism of phosphorylation by which [gamma-32P]GTP does not act as a phosphoryl donor for the protein kinase activity but, instead, only as a repository of high group transfer potential phosphoryl groups used to make [gamma-32P]ATP, from contaminating ADP, by means of the nucleoside diphosphate kinase activity. Using 100 mM fluoride, which suppressed protein phosphorylation without inhibiting the nucleoside diphosphate kinase activity, formation of [gamma-32P]ATP was detected. Fluoride was also able to protect microtubules from a slow depolymerization which was found to occur during long-term incubation of microtubules. This indicates that the phosphorylation observed in the presence of GTP is sufficient to destabilize microtubules.     

Protein phosphorylation in rat mammary acini and in cytosol preparations in vitro. Phosphorylation of acetyl-CoA carboxylase is unaffected by cyclic AMP.

Phosphorylation of soluble proteins in rat mammary acinar cells was investigated. When phosphorylation proceeded in intact cells, in the presence of [32P]Pi, the major non-casein phosphoproteins, including acetyl-CoA carboxylase, were unresponsive to incubation conditions that caused major increases in the intracellular concentration of cyclic AMP. The overall 32P specific radioactivity (c.p.m./microgram of protein) of acetyl-CoA carboxylase, assessed after affinity purification of the enzyme with avidin-Sepharose, was unchanged by incubation under such conditions. Furthermore, the distribution of 32P among tryptic phosphopeptides of the enzyme, resolved by reversed-phase h.p.l.c., was not altered by cyclic AMP-increasing treatments of the acinar cells. When cytosol fractions were incubated with [gamma-32P]ATP, some phosphoproteins responded to the addition of micromolar concentrations of dibutyryl cyclic AMP or cyclic AMP by undergoing an enhancement of phosphate incorporation. In these experiments in vitro, protein phosphatase activity did not make a major contribution to the net phosphorylation of individual phosphoproteins, and acetyl-CoA carboxylase was not prominent among the phosphoproteins identified after short (less than 1 min) incubations of cytosols with [gamma-32P]ATP. The resistance of protein phosphorylation to variations in the cyclic AMP concentration in intact mammary epithelial cells, demonstrated by this work, is one of several mechanisms that ensure the pleiotropic refractoriness of those cells to agents which normally cause a stimulation of adenylate cyclase activity in hormone-sensitive cells.     

Phosphoproteins and the phosphoenolpyruvate:sugar phosphotransferase system of Streptococcus salivarius. Detection of two different ATP-dependent phosphorylations of the phosphocarrier protein HPr

Phosphoproteins which arise from incubation of Streptococcus salivarius ATCC25975 crude extracts with [32P]phosphoenolpyruvate and [gamma-32P]ATP, were separated and detected by sodium dodecyl sulphate-polyacrylamide gel electrophoresis and autoradiography. These procedures were carried out using the methodology that has been developed to allow for the detection of phosphoproteins containing 1-P-histidinyl and 3-P-histidinyl residues, and also to distinguish between these and phosphoproteins containing acid-stable phosphoamino acids such as phosphoserine, phosphothreonine, and phosphotyrosine. Extracts of cells which had been grown with various sugars as carbon sources were investigated to determine both constitutive and inducible phosphoproteins. No evidence was found for phosphoproteins specifically induced by a sugar, and in particular no evidence was found for any IIIsugar phosphocarrier protein of the phosphoenolpyruvate:sugar phosphotransferase system (PTS). Incubation with [gamma-32P]ATP showed that histidine-containing phosphocarrier protein (HPr) of the PTS could be phosphorylated to give both acid-stable and acid-labile phosphoamino acid residues. The acid-labile ATP-dependent phosphorylation activity was activated by glucose-6-P and appeared to produce a 3-P-histidinyl residue in HPr.     

Occurrence of a coupled-enzyme system on the intact-sperm outer surface that phosphorylates and dephosphorylates ecto-proteins

Goat cauda-epididymal intact sperm ecto [32P] proteins phosphorylated in presence of exogenous [gamma-32P]ATP by an endogenous ecto-cyclic AMP-independent protein kinase (CIK), have been found to lose 32P when the labelled cells are incubated at 37 degrees C in a modified Ringer's solution. Analysis of the 32P-labelled products of the turnover of the ecto-phosphoproteins show that 32Pi rather than 32P-labelled peptides, is released from the cell-surface phosphoproteins indicating that the turnover of the ecto-phosphoproteins is mediated by an endogenous sperm outer-surface phosphoprotein phosphatase (ecto-PPase). The ecto-PPase is not a non-specific phosphatase since unlabelled p-nitrophenyl phosphate, beta-glycerophosphate or ATP at a relatively high concentration (1 mM each) has no appreciable effect on the dephosphorylation of the cell-surface proteins. The intact-sperm ecto-proteins phosphorylated and then dephosphorylated by the endogenous ecto-CIK and PPase respectively, undergo rephosphorylation by the cell-surface CIK. The data are consistent with the view that sperm external surface possesses a novel coupled-ecto-CIK and PPase enzyme system that regulates the phosphorylated states of the intact-sperm ecto-proteins by a cyclic mechanism of protein phosphorylation and dephosphorylation.     

Fibronectin phosphorylation by ecto-protein kinase

The presence of membrane-associated, extracellular protein kinase (ecto-protein kinase) and its substrate proteins was examined with serum-free cultures of Swiss 3T3 fibroblast. When cells were incubated with [gamma-32]ATP for 10 min at 37 degrees C, four proteins with apparent molecular weights between 150 and 220 kDa were prominently phosphorylated. These proteins were also radiolabeled by lactoperoxidase catalyzed iodination and were sensitive to mild tryptic digestion, suggesting that they localized on the cell surface or in the extracellular matrix. Phosphorylation of extracellular proteins with [gamma-32P]ATP in intact cell culture is consistent with the existence of ecto-protein kinase. Anti-fibronectin antibody immunoprecipitated one of the phosphoproteins which comigrated with a monomer and a dimer form of fibronectin under reducing and nonreducing conditions of electrophoresis, respectively. The protein had affinity for gelatin as demonstrated by retention with gelatin-conjugated agarose. This protein substrate of ecto-protein kinase was thus concluded to be fibronectin. The sites of phosphorylation by ecto-protein kinase were compared with those of intracellularly phosphorylated fibronectin by the analysis of radiolabeled amino acids and peptides. Ecto-protein kinase phosphorylated fibronectin at serine and threonine residues which were distinct from the sites of intracellular fibronectin phosphorylation.     

Differential kinase systems are involved in the rapidly turning over phosphorylation of prominent nuclear proteins

The activity of endogenous nuclear protein kinases has been probed in an vitro assay system of isolated nuclei from Chironomus salivary gland cells. The phosphorylation of a set of seven prominent rapidly phosphorylated non-histone proteins and of histones H3, H2A and H4 was analyzed using ATP or GTP as phosphoryl donor and heparin as protein kinase effector. The core histones H2A and H3 both incorporate 32P from [gamma-32P]ATP as well as from [gamma-32P]GTP but their phosphorylation is differentially affected by heparin. The phosphorylation of H2A is blocked by heparin while that of H3 is even stimulated in the presence of heparin when ATP is used as phosphate donor. H4 is unable to incorporate phosphate groups from GTP but its ATP-based phosphorylation is heparin sensitive. Of the non-histone protein kinase substrates, we could only detect two, the 44-kDa and 115-kDa proteins, which are heparin sensitive with either ATP or GTP and, thus, strictly meet the criteria for casein kinase type II-specific phosphorylation. The investigated histones and non-histone proteins can be grouped into three broad categories on the basis of their phosphorylation properties. (A) Proteins very likely affected by casein kinase NII. (B) Proteins phosphorylated by strictly ATP-specific protein kinases. (C) Proteins phosphorylated by ATP as well as GTP utilizing protein kinase(s) other than casein NII. Category B proteins can be subdivided into proteins phosphorylated in a heparin-resistant (B1) and heparin-sensitive (B2) manner. The phosphorylation of category C proteins may be heparin sensitive with ATP only (C1), heparin sensitive with GTP only (C2), heparin insensitive with both ATP and GTP (C3) or stimulated by heparin (C4).     

Extracellular phosphorylation in the parasite, Leishmania major

Intact promastigotes or cell-free extracts of the parasite Leishmania major were labelled with adenosine 5'[gamma-32P]-triphosphate (ATP). This resulted in the identification of eleven phosphoproteins. [gamma-32P]ATP incorporation into endogenous and exogenous substrates was insensitive to most of the commonly used protein kinase inhibitors and activators indicating that the leishmanial enzyme(s) may represent a new class of kinase(s). In addition, exogenous substrate specificity was inconsistent with the preferences of second messenger-dependent protein kinases. Cyclic AMP had differential effects on phosphorylation in intact cells and lysates. The majority of kinase activity could be attributed to an externally oriented membrane-associated protein kinase(s), as no specific cytosolic phosphoproteins were found and intact cells phosphorylated exogenous substrates. Labelled ATP did not cross the membrane and [alpha-32P]ATP was an unsuitable substrate for the phosphorylation activity. The ectokinase activity on live Leishmania exhibited a different substrate preference when compared to the protein kinase activity in the particulate fraction, suggesting that more than one protein kinase may be present in L. major. Three serine-labelled phosphoproteins were specifically released into the medium. The presence of an ecto-kinase and these released phosphoproteins may play a significant role in host-parasite interactions.     

Serine phosphorylation of the v-rel oncogene product/pp40 complex

The transforming protein encoded by the v-rel oncogene of reticuloendotheliosis virus has been purified from REV-T transformed lymphoid cells by sequential DEAE-Sepharose and immunoaffinity chromatography. The purified preparation consisted of pp59v-rel and the 40 kDa cellular protein which is complexed with the v-rel oncogene product in transformed cells as well as some minor proteins. Incubation of this purified preparation in the presence of Mg2+ and (gamma-32P)ATP resulted in phosphorylation of both pp59v-rel and the 40 kDa protein. This preparation was also able to phosphorylate casein on serine residues. Immunoprecipitates obtained from extracts of REV-T transformed lymphoid cells labeled with 32P-orthophosphate contained 59 and 40 kDa phosphoproteins. Both pp59v-rel and the 40 kDa protein were phosphorylated on serine residues in transformed cells.