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Phosphatidylcholine (PC) synthesis in animal cells is generally controlled by cytidine 5'-triphosphate (CTP):phosphocholine cytidylyltransferase (CCT). This enzyme is amphitropic, that is, it can interconvert between a soluble inactive form and a membrane-bound active form. The membrane-binding domain of CCT is a long amphipathic alpha helix that responds to changes in the physical properties of PC-deficient membranes. Binding of this domain to membranes activates CCT by relieving an inhibitory constraint in the catalytic domain. This leads to stimulation of PC synthesis and maintenance of membrane PC content. Surprisingly, the major isoform, CCT alpha, is localized in the nucleus of many cells. Recently, a new level of its regulation has emerged with the discovery that signals that stimulate PC synthesis recruit CCT alpha from an inactive nuclear reservoir to a functional site on the endoplasmic reticulum.

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The transition from quiescence (G(0)) into the cell division cycle is marked by accelerated phospholipid turnover. We examined the rates of phosphatidylcholine (PC) synthesis and the activity, membrane affinity, and intracellular localization of the rate-limiting enzyme in the synthesis of PC, CTP:phosphocholine cytidylyltransferase (CT) during this transition. The addition of serum to quiescent IIC9 fibroblasts resulted in a wave of PC synthesis beginning at approximately 10 min, peaking at approximately 3 h with a >10-fold increase in rate, and declining to near basal rates by 10 h. CT activity, monitored in situ, was elevated approximately 3-fold between 1 and 2 h postserum. Neither CT mass nor its phosphorylation state changed during the surge in PC synthesis and CT activity. On the other hand, the ratio of particulate/soluble CT surged and then receded in concert with the wave of PC synthesis. During quiescence, CT was confined to the nucleus, as assessed by indirect immunofluorescence. Within 10 min after serum stimulation, a portion of the CT fluorescence appeared in the cytoplasm, where it intensified until approximately 4 h postserum. Thereafter, the cytoplasmic CT signal waned, while the nuclear signal increased, and by 8 h CT was once again predominantly nuclear. The dynamics of CT's apparent translocation in and out of the nucleus paralleled the wave of PC synthesis and the solubility changes of CT. Cytoplasmic CT co-localized with BiP, a resident endoplasmic reticulum protein, in a double labeling experiment. These data suggest that the wave of PC synthesis that accompanies the G(0) --> G(1) transition is regulated by the coordinated changes in CT activity, membrane affinity, and intracellular distribution. We describe for the first time a redistribution of CT from the nucleus to the ER that correlates with an activation of the enzyme. We propose that this movement is required for the stimulation of PC synthesis during entry into the cell cycle.

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A growth factor-stimulated protein kinase activity that phosphorylates the epidermal growth factor (EGF) receptor at Thr669 has been described (Countaway, J. L., Northwood, I. C., and Davis, R. J. (1989) J. Biol. Chem. 264, 10828-10835). Anion-exchange chromatography demonstrated that this protein kinase activity was accounted for by two enzymes. The first peak of activity eluted from the column corresponded to the microtubule-associated protein 2 (MAP2) kinase. However, the second peak of activity was found to be a distinct enzyme. We present here the purification of this enzyme from human tumor KB cells by sequential ion-exchange chromatography. The isolated protein kinase was identified as a 46-kDa protein by polyacrylamide gel electrophoresis and silver staining. Gel filtration chromatography demonstrated that the enzyme was functional in a monomeric state. A kinetic analysis of the purified enzyme was performed at 22 degrees C using a synthetic peptide substrate based on the primary sequence of the EGF receptor (KREL VEPLT669PSGEAPNQALLR). The Km(app) for ATP was 40 +/- 5 microM (mean +/- S.D., n = 3). GTP was not found to be a substrate for the purified enzyme. The Km(app) for the synthetic peptide substrate was 260 +/- 40 microM (mean +/- S.D., n = 3). The Vmax(app) for the isolated protein kinase was determined to be 400-900 nmol/mg/min. The purified enzyme was designated EGF receptor Thr669 (ERT) kinase. It is likely that the MAP2 and ERT kinases account for the phosphorylation of the EGF receptor at Thr669 observed in cultured cells. The marked stimulation of protein kinase activity caused by growth factors indicates that these enzymes may have an important function during signal transduction.

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A growth factor-stimulated (MAP2-related) protein kinase, ERT, that phosphorylates the epidermal growth factor receptor at Thr669 has been purified from KB human tumor cells by Northwood and co-workers (Northwood, I. C., Gonzalez, F. A., Wartmann, M., Raden, D. L., and Davis, R. J. (1991) J. Biol. Chem. 266, 15266-15276). The ERT protein kinase has a restricted substrate specificity, and the structural determinants employed for substrate recognition by this enzyme have not been defined. As an approach toward understanding the specificity of substrate phosphorylation, we have used an in vitro assay to identify additional substrates for the ERT protein kinase. In this report we describe two novel substrates: (a) the human c-myc protein at Ser62 and (b) the rat c-jun protein at Ser246. Alignment of the primary sequences surrounding the phosphorylation sites located within the epidermal growth factor receptor (Thr669), Myc (Ser62), and Jun (Ser246) demonstrated a marked similarity. The observed consensus sequence was Pro-Leu-Ser/Thr-Pro. We propose that this sequence forms part of a substrate structure that is recognized by the ERT protein kinase.

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Previous work identified a protein kinase activity that phosphorylates the epidermal growth factor (EGF) receptor at Thr669. An assay for this protein kinase activity present in homogenates prepared from A431 human epidermoid carcinoma cells was developed using a synthetic peptide substrate corresponding to residues 663-681 of the EGF receptor (peptide T669). Here we report that a greater initial rate of T669 phosphorylation was observed in experiments using homogenates prepared from EGF- or phorbol ester-treated cells compared with control cells. EGF and 4 beta-phorbol 12-myristate 13-acetate (PMA) caused a 6-fold and a 2-fold increase in protein kinase activity, respectively. A kinetic analysis of T669 phosphorylation demonstrated that the increase in protein kinase activity observed was accounted for by an increase in Vmax. To examine the interaction between protein kinase C and signal transduction by the EGF receptor, the effect of pretreatment of cells with PMA on the subsequent response to EGF was investigated. Treatment of cells with PMA caused greater than 90% inhibition of the EGF-stimulated tyrosine phosphorylation of the EGF receptor and abolished the EGF-stimulated formation of soluble inositol phosphates. In contrast, PMA was not observed to inhibit the stimulation of T669 protein kinase activity caused by EGF. Thus, the apparent functional desensitization of the EGF receptor caused by PMA does not inhibit signal transduction mediated by the T669 protein kinase. Our results demonstrate that EGF receptor transmodulation alters the pattern of signal-transduction pathways that are utilized by the EGF receptor.

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The major site of phosphorylation of the epidermal growth factor (EGF) receptor after treatment of cells with EGF is threonine 669. Phosphorylation of this site is also associated with the transmodulation of the EGF receptor caused by platelet-derived growth factor and phorbol ester. A distinctive feature of the primary sequence surrounding threonine 669 is the proximity of 2 proline residues (-Pro-Leu-Thr669-Pro-). This site is not a substrate for phosphorylation by protein kinase C. To investigate the mechanism of the increased phosphorylation of the EGF receptor at threonine 669, in vitro assays were used to measure protein kinase and protein phosphatase activities present in homogenates prepared from cells treated with and without EGF. No evidence for the regulation of protein phosphatase activity was obtained in experiments using the [32P]phosphate-labeled EGF receptor as a substrate. A synthetic peptide corresponding to residues 663-681 of the EGF receptor was used as a substrate for protein kinase assays. Incubation of murine 3T3 L1 pre-adipocytes and human WI-38 fibroblasts with EGF caused a rapid increase (3-10-fold) in the level of threonine protein kinase activity detected in cell homogenates. Similar results were obtained after EGF treatment of Chinese hamster ovary cells expressing wild-type (Thr669) and mutated (Ala669) human EGF receptors. Activation of the threonine protein kinase activity was also observed in cells treated with platelet-derived growth factor, serum, and phorbol ester. Insulin-like growth factor-1 caused no significant change in protein kinase activity. Together these data indicate a role for the regulation of the activity of a threonine protein kinase in the control of the phosphorylation state of the EGF receptor at threonine 669. The significance of the identification of a growth factor-stimulated threonine protein kinase to the mechanism of signal transduction is discussed.

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Treatment of A431 human epidermoid carcinoma cells with 4-phorbol 12-myristate 13-acetate (PMA) causes an inhibition of the high affinity binding of epidermal growth factor (EGF) to cell surface receptors and an inhibition of the EGF receptor tyrosine protein kinase activity. The hypothesis that PMA controls EGF receptor function by regulating the oligomeric state of the receptor was tested. Dimeric EGF receptors bound to 125I-EGF were identified by covalent cross-linking analysis using disuccinimidyl suberimidate. Treatment of cells with PMA in the presence of 20 nM 125I-EGF caused no significant change in the level of labeled cross-linked monomeric and dimeric receptor species. Investigation of the in vitro autophosphorylation of receptor monomers and dimers cross-linked with 1-ethyl-3-(3-dimethylaminopropyl)carbodiimide demonstrated that the treatment of cells with PMA caused an inhibition of the tyrosine phosphorylation of both monomeric and dimeric EGF receptors. We conclude that the inhibition of the EGF receptor tyrosine protein kinase activity caused by PMA is not associated with the regulation of the oligomeric state of the EGF receptor.

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The epidermal growth factor (EGF) receptor exists in a monomeric (170 kDa) form and in several aggregated states (360 kDa, greater than 500 kDa). The hypothesis that the oligomerization of the receptor is required for the stimulation of the kinase was tested by correlating the oligomeric state of the receptor with the protein kinase activity. EGF and sphingosine stimulate the phosphorylation of an exogenous peptide substrate by the receptor to an equal extent. Chemical cross-linking using disuccinimidyl suberate and the analysis of EGF receptor complexes by Western blotting demonstrated that EGF caused the aggregation of receptors. Similar results were obtained when [32P]phosphate-labeled receptors were cross-linked using 1-ethyl-3-(3-dimethylaminopropyl)carbodiimide hydrochloride. These results were confirmed by sucrose density gradient sedimentation analysis. In contrast to the effects of EGF, incubation of EGF receptors with sphingosine did not cause the oligomerization of the receptors. These data demonstrate that the EGF receptor kinase can be stimulated independently of the aggregation of the receptors.

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Because little is known of the phagocytes of the human colon we enumerated these cells in mucosal suspensions and studied their phagocytic activity. Phagocyte rich suspensions were made by EDTA collagenase dissociation followed by elutriation centrifugation. Phagocytosis was evaluated by measuring cellular radioactivity after incubation of phagocytes with 3H-adenine labelled E coli ON2 and checked microscopically. Dissociation of normal mucosa from colorectal neoplasms yielded means of 1.9 X 10(6) eosinophils, 1.4 X 10(6) macrophages and 2 X 10(5) neutrophils per gram of mucosa. Visually normal mucosa of inflammatory states yielded 2.2 X 10(6) eosinophils, 2.3 X 10(6) macrophages and 7 X 10(5) neutrophils per gram of mucosa. Phagocyte rich suspensions of normal mucosa from tumour patients phagocytosed 21.8% of a pool of opsonised tritiated E coli ON2 and by microscopy 100% of mucosal neutrophils ingested bacteria, 83% of eosinophils were phagocytic, and 53% of macrophages contained bacteria. These results suggest that in the human colonic mucosa, the eosinophil is more abundant than the macrophage and the per cent of those cells exhibiting phagocytosis is intermediate between that of the macrophage and the neutrophil. Thus these three types of cells are actively phagocytic and share the potential for a major role in host defence against invasive enteric bacteria.

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Because little is known about eosinophils of the human intestine, we measured their C3b and Fc gamma receptor expression and phagocytic activity in mucosal suspensions from colon resections for large bowel neoplasms. Enzymatically dissociated suspensions were enriched for eosinophils by countercurrent centrifugation. C3b and Fc gamma receptors were measured by immunofluorescent assays with flow cytometry. Phagocytosis of Escherichia coli ON2 was determined by an in vitro microscopic method. Suspensions of normal tissue from neoplasm resections yielded 1.8 X 10(6) eosinophils/g mucosa, and these cells were more numerous than either macrophages or neutrophils. Fivefold enrichment was achieved by countercurrent centrifugation, and 75% of these cells expressed C3b receptors and 90% expressed Fc gamma receptors. Sixty-seven percent of mucosal eosinophils were phagocytic for E. coli ON2 and ingested a mean of 4.7 bacteria per cell. Eosinophils accounted for more overall phagocytic activity than either neutrophils or macrophages.

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