TCDD (2,3,7,8-tetrachlorodibenzo-p-dioxin) causes an increase in protein tyrosine kinase activities at an early stage of poisoning in vivo in rat hepatocyte membranes

TCDD was found to cause a significant rise in protein tyrosine kinase levels at an early stage of poisoning in rat liver membrane preparations. The results of sephadex G-150 column chromatographic analysis on rat hepatocyte membranes indicate that there are at least three tyrosine kinases of which activities increase as a consequence of TCDD treatment in vivo. The TCDD-evoked rise in such protein tyrosine kinase activity precedes the down-regulation of the EGF (epidermal growth factor) receptor in the plasma membrane in vivo.     

TCDD (2,3,7,8-tetrachlorodibenzo-p-dioxin) causes increases in protein kinases particularly protein kinase C in the hepatic plasma membrane of the rat and the guinea pig

To study the cause of TCDD-evoked changes in the functions of plasma membrane constituents TCDD's effects on protein kinase activities in the liver of rats and guinea pigs were investigated. TCDD was found to cause a sharp increase in both c-AMP independent and dependent protein kinase activities in plasma membrane preparations from rat liver within 48 hours from the time of administration. Such effects reached maxima around day 20, and were quite noticeable even 40 days after a single administration of TCDD. As a result of SDS-polyacrylamide gel-electrophoresis (SDS-PAGE) analysis several substrate proteins for these increased protein kinases were observed. Among them are 170 K - 150 K bands, representing EGF receptor protein. TCDD was found to particularly stimulate protein kinase C which is known to influence many enzyme and receptor functions through protein phosphorylation. The possible significance of such an action of TCDD is discussed.     

Tissue distribution of casein kinases

The activities of casein kinases 1 and 2 in cytosol fractions prepared from 12 different rat tissues were compared. Casein kinase activities were detected in all tissues examined. Total casein kinase activities of lung, spleen, testis, and thymus were much higher than those of skeletal muscle, cardiac muscle, and adrenal gland. When activities of casein kinases 1 and 2 partially purified from lung, spleen, testis, and thymus prepared from 5 rats were compared, both total and specific activities of these kinases in testis were higher than those in the other tissues. These results indicate that testis is the most suitable tissue in rats for large-scale purification of casein kinase 1 as well as casein kinase 2.     

Tissue distribution of casein kinases

The activities of casein kinases 1 and 2 in cytosol fractions prepared from 12 different rat tissues were compared. Casein kinase activities were detected in all tissues examined. Total casein kinase activities of lung, spleen, testis, and thymus were much higher than those of skeletal muscle, cardiac muscle, and adrenal gland. When activities of casein kinases 1 and 2 partially purified from lung, spleen, testis, and thymus prepared from 5 rats were compared, both total and specific activities of these kinases in testis were higher than those in the other tissues. These results indicate that testis is the most suitable tissue in rats for large-scale purification of casein kinase 1 as well as casein kinase 2.     

Determination of specific protein kinase activities using phosphorus-33

The immune complex kinase assay is the most widely applied method to assess the catalytic activity of protein tyrosine kinases. It offers the advantage that the activity of a single selected enzyme can be determined, and that the enzyme activity can be normalized for the amount of enzyme in a parallel immunoblotting experiment. Here, we describe the use of the recently introduced isotope phosphorus-33 for the protein kinase assay. The lower energy of ³³P, compared with the traditionally applied ³²P, allows the simultaneous examination of the amount of enzyme with ¹²⁵I-labeled antibodies. By analysing one and the same sample for both kinase activity and protein amount, the variation between parallel processed samples is avoided. Using this method, specific kinase activities can be calculated with high precision. The assay is particularly useful for the detection of cytokine and growth factor-induced activation of kinases, as changes in enzyme amounts by subcellular relocalization can be distinguished.     

Activation of SRC tyrosine kinases in response to ICAM-1 ligation in pulmonary microvascular endothelial cells

Previous studies demonstrated that ICAM-1 ligation on human pulmonary microvascular endothelial cells (ECs) sequentially induces activation of xanthine oxidase and p38 MAPK. Inhibition of these signaling events reduces neutrophil migration to the EC borders. This study examined the role of SRC tyrosine kinases in ICAM-1-initiated signaling within these ECs. Cross-linking ICAM-1 on tumor necrosis factor-alpha-pretreated ECs induced an increase in the activity of SRC tyrosine kinases. This increase was inhibited by allopurinol (a xanthine oxidase inhibitor), Me2SO (a hydroxyl radical scavenger), or deferoxamine (an iron chelator). Phenylarsine oxide, a tyrosine phosphatase inhibitor, reduced the base-line activity of SRC as well as the increase in SRC activity induced by ICAM-1 cross-linking. Specific inhibition of the protein expression of the SRC homology 2-containing protein-tyrosine phosphatase-2 (SHP-2) by an antisense oligonucleotide prevented the induced SRC activation but had no effect on the basal SRC activity. Activation of SRC tyrosine kinases was accompanied by tyrosine phosphorylation of ezrin at Tyr-146, which was inhibited by PP2, an SRC tyrosine kinase inhibitor. Moreover, PP2 completely inhibited p38 activation, suggesting a role for SRC tyrosine kinases in p38 activation. These data demonstrate that ICAM-1 ligation activates SRC tyrosine kinases and that this activation requires SHP-2 as well as production of reactive oxygen species generated from xanthine oxidase. Activation of SRC tyrosine kinases in turn leads to tyrosine phosphorylation of ezrin, as well as activation of p38, a kinase previously identified to be required for cytoskeletal changes induced by ICAM-1 ligation and for neutrophil migration along the EC surface.     

2,3,7,8-tetrachlorodibenzo-P-dioxin induced alterations in protein phosphorylation in guinea pig adipose tissue

An in situ (explant tissue culture) model has been developed to study the effect of 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD), hormones, and growth factors either alone or in combination. In our model system, the effect of TCDD on protein phosphorylation was greatly affected by the presence or the absence of externally added D-glucose. In the presence of a physiologically relevant level of glucose (13.3 mM), TCDD clearly stimulated protein phosphorylation as in the case of in vivo data. However, in the absence of Dglucose TCDD clearly inhibited protein phosphorylation. On the other hand, TCDD reduced the glucose uptake activity in isolated adipose tissue either in the presence or absence of D-glucose (13.3 mM). Therefore, the TCDD-induced reduction of glucose transport does not appear to be related directly to the simultaneous rise in protein phosphorylation. For comparison, several agents which are known to affect protein phosphorylation were tested. These hormonal agents generally affected the TCDD-untreated adipose tissues in the manner expected from their known actions, indicating that this in situ model is an adequate system to study their independent actions. The TCDD-treated adipose tissue samples showed only mild or insignificant response to these hormonal stimuli. In terms of the changes in the pattern of protein phosphorylation activities, the action of TCDD appeared to resemble that of EGF and T3. Since under in situ conditions no agents such as EGF or T3 can be expected to be present, the observed TCDD-induced changes are suggestive of the basic intracellular changes in cellular activities. The types of TCDD-induced protein kinases appear to be protein tyrosine kinases and protein kinase C.     

Effects of TCDD on the EGF receptor of XB mouse keratinizing epithelial cells

TCDD was found to cause a marked inhibition of 125I-epidermal growth factor (EGF) binding to its receptor on the cell surface of XB mouse keratinizing epithelial cells (XB cells) cultured in vitro. The EC50 concentration was estimated to be on the order of 3 x 10(-11) M 24 hours after TCDD administration. As early as 12 hours after the addition of 10(-9) M of TCDD, XB cells showed signs of a decline in 125I-EGF binding levels. The level of such EGF receptor downregulation reached a maximum at 24 hours, continued until day 2, but completely recovered by day 3. This was accompanied by a rise in protein kinase activities, particularly those of the protein tyrosine kinases during the initial period of 6-24 hours. To test the hypothesis that the EGF receptors of the cells, by showing TCDD-induced symptoms of downregulation, actually are being activated and triggering EGF-like signals, we examined the effects of both TCDD and exogenously added EGF on cell morphology, colony formation degree of keratinization, the pattern of activation of protein kinases and de novo protein synthesis, and EGF receptor phosphorylation. Based on the similarity of cell responses to these between TCDD- and EGF-treated cells, we concluded that TCDD, directly or indirectly, causes activation of the EGF receptor. In contrast, 12-O-tetradencanoylphorbol-13-acetate (TPA), which is known to downregulate EGF receptors by blocking their protein tyrosine kinase, produced dissimilar end results. The balance of evidence support the notion that the action of TCDD in this cell line is tightly coupled to the activation of the EGF receptor and that one of the key consequences of such a biochemical change is that it signals these cells to commit to terminal differentiation.     

2,3,7,8-Tetrachlorodibenzo-p-dioxin causes elevation of the levels of the protein tyrosine kinase pp60c-src

2,3,7,8-Tetrachlorodibenzo-p-dioxin (TCDD) has been found to cause increases in cellular levels of pp60^src, a protein tyrosine kinase in hepatocytes from the rat and guinea pig, in the thymus of the mouse in vivo and in NIH-3T3 mouse fibroblast cell lines in vitro. Such cellular changes take place in vivo at early stages of TCDD poisoning (as early as one day after treatment in the case of mouse thymus) and at very low doses (single intraperitoneal injections of 1 μg/kg for guinea pigs, 25 μg/ kg for rats, and 30 μg/kg for mice). In addition such an effect of TCDD was observed only in a TCDD-responsive mouse strain but not in a nonresponsive strain. This effect of TCDD is a long-lasting one (eg, even 25 days after single dosing, the levels of pp60^src in the hepatic membrane remained high). In vitro this effect was observed in a wild-type 3T3 cell line but was more pronounced in one of the transfected lines with a v-src gene, a virus-derived oncogene known to code for pp60^src protein.     

Lyn and syk tyrosine kinases are not activated in B-lineage lymphoid cells exposed to low-energy electromagnetic fields.

Exposure of B-lineage lymphoid cells to a 100 microT 60 Hz AC magnetic field has been reported to stimulate the rapid activation of Lyn and Syk tyrosine kinases and the induction of protein tyrosine phosphorylation. These findings are significant because of the critical role played by these B cell signaling events in the control of growth and differentiation, and therefore the potential of electromagnetic field (EMF) exposure to induce cancer. We report the first study carried out with the aim of reproducing the reported EMF effects on Lyn and Syk tyrosine kinases. The system used enabled EMF exposure conditions to be carefully controlled and also allowed experiments to be performed blind. The effects of a 100 microT 60 Hz AC magnetic field on protein tyrosine phosphorylation and on Lyn and Syk tyrosine kinase activities were investigated in Nalm-6 and DT40 B cells in the absence and presence of a 46 microT DC magnetic field. However, no significant effects of low-energy electromagnetic fields on tyrosine kinase activities or protein phosphorylation were observed.     

Tryosine kinase and ornithine decarboxylase activation in children with Helicobactor pylori gastritis.

H. pylori infection has been considered a risk factor for the development of gastric malignancy. Ornithine decarboxylase and tyrosine kinases activities are increased in patients with colon or esophageal cancer. In this study we compared the ODC and tyrosine kinases activities in the gastric mucosa of children with H. pylori infection and normal mucosa. Gastric biopsies were prospectively collected from children during routine upper endoscopic procedure. H. pylori infection was determined histologically. Biopsies were analyzed for ODC activity, total tyrosine kinases activities, and for the activity of protooncogene tyrosine kinase pp60(c-src). The mean ODC activity (pmol 14CO2/mg. protein/hr) and total tyrosine kinases activity (pmol 32P/mg. protein) were 186 and 5877 for H. pylori infected mucosa; and 229 and 4300, for normal mucosa, respectively (p> 0.05). Tyrosine kinase pp60(c-src) protein levels were similar between H. pylori infected mucosa and normal mucosa (3.12 and 2.15 pmol 32P/mg. protein, respectively; p>0.05). There was no correlation between gastric inflammation and the level of ODC or tyrosine kinase activities. ODC and tyrosine kinase activities in the gastric mucosa are similar in children with H. pylori infection compared to normal mucosa. The data suggest that these enzymes cannot be used as markers for future cancer development in children.     

Okadaic acid mimics the action of insulin in stimulating protein kinase activity in isolated adipocytes. The role of protein phosphatase 2a in attenuation of the signal

Treatment of adipocytes with okadaic acid (a specific inhibitor of type 1 and 2a protein phosphatases) resulted in a rapid 8-10-fold stimulation of cell extract myelin basic protein (MBP) kinase activity (t1/2 = 10 min) and kinase activity toward a synthetic peptide RRLSSLRA (S6 peptide) (t1/2 = 5 min). Insulin brought about a smaller stimulation of these two activities (t1/2 = 2.5 min). MBP kinase activity from cells treated with okadaic acid or insulin was resolved by anion exchange chromatography into two well defined peaks; S6 peptide kinase activity was less well resolved. The two partially purified MBP kinases were inactivated by the protein tyrosine phosphatase CD45 or by protein phosphatase 2a (PP-2a). In contrast, partially purified S6 peptide kinase activity was inactivated only by PP-2a or protein phosphatase 1 (PP-1). Furthermore, a 38-kDa protein which co-eluted with one peak of MBP kinase and a 42-kDa protein which co-eluted with the other peak of MBP kinase were phosphorylated on tyrosine after treatment with okadaic acid. These findings illustrate several important points concerning regulation of MBP and S6 peptide kinases. First, these protein kinases are regulated by phosphorylation, and, second, in the absence of hormonal stimuli their activities are strongly suppressed by protein phosphatases. Lastly, the increased tyrosine phosphorylation accompanying the activation of MBP kinases following okadaic acid treatment suggests a role for PP-2a in events that are mediated by tyrosine phosphorylation.     

Photocleavable peptide-oligonucleotide conjugates for protein kinase assays by MALDI-TOF MS

Robust methods for highly parallel, quantitative analysis of cellular protein tyrosine kinase activities may provide tools critically needed to decipher oncogenic signaling, discover new targeted drugs, diagnose cancer and monitor patients. Here, we describe proof-of-principle for a novel protein kinase assay with the potential to help overcome these challenges. MALDI-TOF mass spectrometry provides an ideal tool for label-free multiplexed analysis of peptide phosphorylation, but is poorly matched to homogeneous assays and complex samples. Thus, we conjugated a common oligonucleotide tag to multiple peptide substrates, offering efficient capture from solution-phase kinase reactions by annealing to the complementary sequence tethered to PEG-passivated superparamagnetic microparticles. To enable reversible conjugation, we developed a novel bifunctional cross-linker allowing simple and efficient preparation of photocleavable peptide-oligonucleotide conjugates. After washing away contaminants and following photorelease, MALDI-TOF analysis yielded relative phosphorylation of each peptide with high sensitivity and specificity. Validating the hybridization-mediated multiplexed kinase assay, when three peptide substrate-oligonucleotide conjugates were mixed with the tyrosine kinase c-Abl and ATP, we readily observed their differential phosphorylation yet measured a common IC(50) for the Abl kinase inhibitor imatinib. This new assay enables analysis of protein kinase activities in a multiplexed format amenable to screening inhibitors against multiple kinases in parallel, an important capability for drug discovery and predictive diagnostics.     

Role of hypergastrinemia in the antiatrophy effect of 2,3,7,8-tetrachlorodibenzo-p-dioxin on oxyntic gland mucosa of the rat stomach

Atrophy of the gastrointestinal mucosa that occurs in pair-fed control rats is not observed in 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD)-treated rats (1). Our objective was to determine if the gastrointestinal trophic hormone, gastrin, is involved in the antiatrophy effect of TCDD on the gut mucosa. Adult male Sprague-Dawley rats treated with 100 micrograms/kg of TCDD were slightly hypergastrinemic 7 days after dosing and markedly hypergastrinemic 14 days after treatment whereas pair-fed control rats were normogastrinemic. After 14 days of feed restriction, atrophy of the oxyntic gland and ileum mucosa occurred in pair-fed control rats but only atrophy of the ileum mucosa developed in TCDD-treated animals. The oxyntic gland mucosa of TCDD-treated rats was protected from mucosa atrophy as well as from mucosa erosions. The protection against feed restriction-induced atrophy was demonstrated by measurements of oxyntic gland mucosal height and DNA and protein content. Since hypergastrinemia stimulates growth of oxyntic gland mucosa, but not ileum mucosa, the antiatrophy effect of TCDD on mucosa of the oxyntic gland might in part be due to hypergastrinemia. In support of this interpretation, TCDD treatment exerted an antiatrophy effect on the oxyntic gland mucosa only when TCDD-treated animals were hypergastrinemic. For example, hypergastrinemia does not develop within the first 48 hr after TCDD administration, and TCDD treatment affords no protection against fasting-induced atrophy of the oxyntic gland mucosa during this time. On the other hand, the ability of TCDD treatment to protect against feed restriction-induced erosions of the oxyntic gland mucosa might be mediated by hypergastrinemia since these events occur at a later time.(ABSTRACT TRUNCATED AT 250 WORDS)     

Effects of thyroidectomy on the Ah receptor and enzyme inducibility by 2,3,7,8-tetrachlorodibenzo-p-dioxin in the rat liver

Thyroidectomy of rats confers some protection, by an unknown mechanism, from the weight loss, immunotoxicity, and mortality induced by 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD). Since at least some of the many effects of TCDD appear to be mediated by the Ah receptor, perhaps the thyroid plays a role in regulation of this receptor, thereby modifying the toxicity of TCDD. We tested this hypothesis by comparing TCDD-binding characteristics of the receptor and hepatic enzyme inducibility by TCDD (a receptor-mediated response) in thyroidectomized (ThX) and euthyroid rats. There were no significant differences in levels of TCDD binding in vitro in hepatic cytosol, in receptor affinity, nor in the molecular size of the TCDD-bound receptor in untreated ThX rats compared to controls fed ad libitum or pair-fed. Total hepatic cytochrome P-450 (P-450) levels and NADPH-menadione oxidoreductase (NMOR) activity were unaffected by thyroid status, whereas 7-ethoxycoumarin O-deethylase (ECOD) activity was approx. 50% lower in ThX animals than in ad libitum or pair-fed controls. At 3 and 10 days after TCDD administration (10 micrograms/kg, i.p.), P-450 concentrations and NMOR and ECOD activities were induced by approximately the same proportions in ThX and pair-fed intact rats; however, the absolute levels of the induced activities were lower in ThX than in pair-fed controls. It was concluded that hypothyroidism does not regulate Ah receptor concentration or function in the liver. Therefore, the modulation of TCDD toxicity by hypothyroidism appears not to involve changes in the hepatic Ah receptor.     

A microtiter-based assay for the detection of protein tyrosine kinase activity

A 96-well microtiter enzyme-linked immunosorbent assay (ELISA) for protein tyrosine kinases has been developed. This assay uses one of several substrates that are phosphorylated by tyrosine kinase, an antibody to phosphotyrosine, and a peroxidase-linked second antibody. Color development is monitored by a change in absorbance at 450 nm and is dependent upon time, enzyme, ATP, and substrate concentrations. Specificity of the ELISA for phosphotyrosine was shown by inhibition of binding of the anti-phosphotyrosine antibody with phenyl phosphate. Results obtained in the ELISA compared favorably with those obtained by direct phosphorylation of the substrate with [³²P]ATP. Staurosporine and K252a, protein kinase inhibitors, showed titratable inhibition of tyrosine kinase activity. This assay is a rapid, nonradioactive alternative to traditional methodology and is also amenable to automation.     

Novel yeast protein kinase (YPK1 gene product) is a 40-kilodalton phosphotyrosyl protein associated with protein-tyrosine kinase activity.

Extracts of bakers' yeast (Saccharomyces cerevisiae) contain protein-tyrosine kinase activity that can be detected with a synthetic Glu-Tyr copolymer as substrate (G. Schieven, J. Thorner, and G.S. Martin, Science 231:390-393, 1986). By using this assay in conjunction with ion-exchange and affinity chromatography, a soluble tyrosine kinase activity was purified over 8,000-fold from yeast extracts. The purified activity did not utilize typical substrates for mammalian protein-tyrosine kinases (enolase, casein, and histones). The level of tyrosine kinase activity at all steps of each preparation correlated with the content of a 40-kDa protein (p40). Upon incubation of the most highly purified fractions with Mn-ATP or Mg-ATP, p40 was the only protein phosphorylated on tyrosine. Immunoblotting of purified p40 or total yeast extracts with antiphosphotyrosine antibodies and phosphoamino acid analysis of 32P-labeled yeast proteins fractionated by sodium dodecyl sulfate-polyacrylamide gel electrophoresis indicated that the 40-kDa protein is normally phosphorylated at tyrosine in vivo. 32P-labeled p40 immunoprecipitated from extracts of metabolically labeled cells by affinity-purified anti-p40 antibodies contained both phosphoserine and phosphotyrosine. The gene encoding p40 (YPK1) was cloned from a yeast genomic library by using oligonucleotide probes designed on the basis of the sequence of purified peptides. As deduced from the nucleotide sequence of YPK1, p40 is homologous to known protein kinases, with features that resemble known protein-serine kinases more than known protein-tyrosine kinases. Thus, p40 is a protein kinase which is phosphorylated in vivo and in vitro at both tyrosine and serine residues; it may be a novel type of autophosphorylating tyrosine kinase, a bifunctional (serine/tyrosine-specific) protein kinase, or a serine kinase that is a substrate for an associated tyrosine kinase.