Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:2.7.10.2 (focal adhesion kinase)
44,029 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Rat pheochromocytoma (PC12) cells contain specific plasma membrane receptors for both epidermal growth factor (EGF) and nerve growth factor (NGF). Whereas EGF addition to PC12 cells causes a persistent enhancement of proliferation. NGF addition induces a transient stimulation of growth, followed by growth arrest and neuronal differentiation. Despite these differences in biological response, EGF and NGF share a number of early receptor-mediated responses, which are likely te be related to their effect on cell proliferation. In this paper we show that EGF, but not NGF, is able to stimulate the phosphorylation of membrane proteins. In addition, EGF was able to stimulate phosphorylation of a synthetic peptide (RR-SRC) by PC12 membranes in a concentration-dependent manner. Kinetic analysis of the phosphorylation reaction indicated that EGF increased the Vmax from 13 to 70 pmoles/min/mg protein, while no change was observed in Km. Furthermore, EGF was able to stimulate tyrosine phosphorylation of angiotensin I and II, to the same extent as RR-SRC. In contrast no effects of NGF on peptide phosphorylation by PC12 membranes were observed. Cross-linking experiments demonstrated the presence of receptors for both NGF and EGF in PC12 membranes. These different effects of NGF and EGF on activation of membrane-associated protein-kinase activity demonstrate that NGF might be able to stimulate growth transiently without stimulating protein kinase activity.
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PMID:Epidermal growth factor, but not nerve growth factor, stimulates tyrosine-specific protein-kinase activity in pheochromocytoma (PC12) plasma membranes. 300 Apr 61

Using angiotensin I as a substrate, the activity of protein tyrosine kinase was determined in various rat tissues, and its developmental change in rat brain was investigated. The specific activity was shown to be the highest in the brain among the tissues examined in neonatal rats, while it was the highest in the spleen in adult rats. In the brain, the activity varied during development and was the highest in the first postnatal week. To identify the protein tyrosine kinase and examine its relationship with pp60c-src, which is known to be highly expressed in neuronal cells, we attempted to characterize the enzyme from neonatal and adult rat brain, using poly(Glu,Tyr) as a substrate. Neonatal brain was found to express two types of pp60c-src and a novel protein tyrosine kinase to almost the same level, while adult brain expressed pp60c-src predominantly. The neonatal type of pp60c-src and the novel enzyme were designated as pp60nc-src and N-PTK in the present study, respectively. pp60c-src, pp60nc-src, and N-PTK were purified about 660-. 370-, and 260-fold from crude homogenate of neonatal brain, respectively, by procedures including sequential column chromatography on DEAE cellulose, hydroxylapatite, Ultrogel AcA44, and poly(Glu,Tyr) Sepharose. N-PTK behaved as a molecule with apparent Mr = 50,000 on Ultrogel AcA44 gel filtration chromatography. It was not immunoprecipitated by anti-pp60c-src antiserum and did not phosphorylate IgG heavy chain of anti-pp60c-src antibody. It required mainly Mn2+ for activity and phosphorylated tyrosine-containing polyamino acids and synthetic peptides such as angiotensin II and RR-SRC peptide.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Protein tyrosine kinase in rat brain: neonatal rat brain expresses two types of pp60c-src and a novel protein tyrosine kinase. 314 96

A tyrosine protein kinase activity has been partially purified from calf thymus using the phosphorylation of the tyrosine-containing peptide angiotensin I as an assay. Detergent extracts of calf thymus possessed only low levels of specific peptide phosphorylating activity when assayed at low ionic strength. The inclusion of NaCl at a concentration of 2 M stimulated endogenous tyrosine protein kinase activity, while the activity of other endogenous kinases was inhibited. This sensitivity to NaCl was retained following partial purification of the enzyme. The phosphorylation of other substrates such as casein or the R-R-SRC peptide (Arg-Arg-Leu-Ile-Glu-Asp-Ala-Glu-Tyr-Ala-Ala-Arg-Gly) by the tyrosine protein kinase was less sensitive to NaCl. Phosphorylation of the PK-1 peptide (Leu-Arg-Arg-Ala-Ser-Leu-Gly) by the purified catalytic subunit of cAMP-dependent protein kinase was inhibited by NaCl. The effect of NaCl on angiotensin I phosphorylation could be mimicked by KCl or sodium acetate. The principal effect of NaCl was to increase the Vmax of the enzyme for the phosphorylation of angiotensin I. At low ionic strength, Mn2+ and Co2+ were the preferred required divalent cations. At elevated NaCl concentrations Mg2+ was preferred, with half-maximal activation occurring at 35 mM Mg2+. By conducting peptide phosphorylation assays in the presence of elevated levels of Mg2+ and NaCl, tyrosine protein kinase activity can readily be detected in extracts from cell lines that express low levels of the enzyme.
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PMID:Properties of a tyrosine protein kinase from calf thymus. Response to ionic strength and divalent cations. 387 56

In rat liver epithelial cell lines (WB or GN4), angiotensin II (Ang II) stimulates cytosolic tyrosine kinase activity, in part, through a calcium-dependent mechanism. In other cell types, selected hormones that activate Gi- or Gq-coupled receptors stimulate the soluble tyrosine kinase, p125FAK. Immunoprecipitation of p125FAK from Ang II-activated GN4 cells demonstrated a doubling of p125FAK kinase activity. However, an additional Ang II-activated tyrosine kinase (or kinases) representing the majority of the total activity was detected when the remaining cell lysate, immunodepleted of p125FAK, was reimmunoprecipitated with an anti-phosphotyrosine antibody. Cytochalasin D pretreatment blocks G-protein receptor-dependent tyrosine phosphorylation in Swiss 3T3 cells. While cytochalasin D decreased the Tyr(P) content of 65-75-kDa substrates in Ang II-treated GN4 cells, it did not diminish tyrosine phosphorylation of 115-130-kDa substrates, again suggesting activation of at least two tyrosine kinase pathways in GN4 cells. To search for additional Ang II-activated enzymes, we used molecular techniques to identify 20 tyrosine kinase sequences in these cell lines. None was the major cytosolic enzyme activated by Ang II. Specifically, JAK2, which had been shown by others to be stimulated by Ang II in smooth muscle cells, was not activated by Ang II in GN4 cells. Finally, we purified Tyr(P)-containing tyrosine kinases from Ang II-treated cells, using anti-Tyr(P) and ATP affinity resins; 80% of the tyrosine kinase activity migrated as a single 115-120-kDa tyrosine-phosphorylated protein immunologically distinct from p125FAK. In summary, Ang II activates at least two separate tyrosine kinases in rat liver epithelial cells; p125FAK and a presumably novel, cytosolic 115-120-kDa protein referred to as the calcium-dependent tyrosine kinase.
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PMID:Angiotensin II activates at least two tyrosine kinases in rat liver epithelial cells. Separation of the major calcium-regulated tyrosine kinase from p125FAK. 749 50

In cultured vascular smooth muscle cells (VSMCs), angiotensin II (Ang II) stimulated tyrosine phosphorylation of several proteins including a cluster of 70-80-kDa proteins as assessed by anti-phosphotyrosine immunoblotting. These 70-80-kDa proteins were identified as a focal adhesion-associated protein, paxillin, by anti-paxillin immunoprecipitation. Ang II-stimulated tyrosine phosphorylation of paxillin was detectable within 1 min and maximal at around 10 min and was concentration dependent (half-maximal effect at around 1 nM). Ang II also stimulated tyrosine phosphorylation of focal adhesion kinase in a time- and concentration-dependent manner. The Ang II type 1 (AT1) receptor antagonist, CV-11974, but not the Ang II type 2 receptor antagonist, PD123319, inhibited these reactions. These results indicate that Ang II transduces its signal to focal adhesions via AT1 receptors in cultured VSMCs.
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PMID:Angiotensin II transduces its signal to focal adhesions via angiotensin II type 1 receptors in vascular smooth muscle cells. 762 34

Because of the well established role that tyrosine phosphorylation (tyr phos) plays in growth factor signalling and regulating cell growth, we hypothesized that cardiac hypertrophy might be associated with altered tyr phos of certain cellular proteins in the heart. Furthermore, we hypothesized that angiotensin II (ang II), a putative growth factor for cardiac cells, might be useful as a probe to highlight any differences in intracellular signalling between normal and hypertrophied hearts. The heart and, for comparison, skeletal muscle, from Dahl S rats, which are predisposed to cardiac hypertrophy, and Dahl R rats, which are not, were examined. Antiphosphotyrosine immunoprecipitation and immunoblotting of heart cell extracts revealed the presence of a constitutively tyr phos 120 kDa cytosolic protein. Hearts from Dahl R rats on a high salt diet displayed a smaller amount of constitutive tyr phos of this protein. In the hearts of both Dahl R and S rats maintained on low salt diets there was little evidence of constitutive tyr phos of this protein. Ang II induced tyr phos of this protein in Dahl S rats on a low salt diet and Dahl R rats on a high salt diet, both of which show mild cardiac hypertrophy. In contrast, the markedly hypertrophied ventricle showed a minimal response to Ang II. Thus the severity of cardiac hypertrophy correlated directly with the tyr phos level of this protein. In an attempt to identify this protein, immunoblotting was carried out with antibodies to the signal transducing proteins rasGAP, JAK2 iNOS, p125FAK, and the Src substrate, pp120, but all proved negative. Ang II also stimulated an increase in tyr phos of proteins with apparent molecular masses of 42, 55, and 69 to 85 kDa in hearts from Dahl S rats on high salt diet. By comparison, there was no 120 kDa tyr phos protein in skeletal muscle even in response to Ang II. Silver stained sodium dodecyl sulfate gels demonstrated that this 120 kDa tyr phos protein is present in substantial amounts in the ventricles of rats fed high salt diets. Thus cardiac hypertrophy is characterized by an abundant 120 kDa cytosolic tyr phos protein, which is apparent with Ang II stimulation in milder degrees of cardiac hypertrophy, and is most likely an as yet uncharacterized protein.
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PMID:Cardiac hypertrophy in the Dahl rat is associated with increased tyrosine phosphorylation of several cytosolic proteins, including a 120 kDa protein. 869 21

Angiotensin II (AII), acting via its G-protein linked receptor, is an important regulator of cardiac, vascular, and renal function. Following injection of AII into rats, we find that there is also a rapid tyrosine phosphorylation of the major insulin receptor substrates 1 and 2 (IRS-1 and IRS-2) in the heart. This phenomenon appears to involve JAK2 tyrosine kinase, which associates with the AT1 receptor and IRS-1/IRS-2 after AII stimulation. AII-induced phosphorylation leads to binding of phosphatidylinositol 3-kinase (PI 3-kinase) to IRS-1 and IRS-2; however, in contrast to other ligands, AII injection results in an acute inhibition of both basal and insulin-stimulated PI 3-kinase activity. The latter occurs without any reduction in insulin receptor or IRS phosphorylation or in the interaction of the p85 and p110 subunits of PI 3-kinase with each other or with IRS-1/IRS-2. These effects of AII are inhibited by AT1 receptor antagonists. Thus, there is direct cross-talk between insulin and AII signaling pathways at the level of both tyrosine phosphorylation and PI 3-kinase activation. These interactions may play an important role in the association of insulin resistance, hypertension, and cardiovascular disease.
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PMID:Cross-talk between the insulin and angiotensin signaling systems. 890 9

The effect of the blockade of the renin angiotensin system (RAS) on thermoregulatory, cardiovascular and renal function during moderate exercise in a hot [mean (SEM) 34.4 (0.1) degrees C] environment was evaluated. Six men and three women cycled at 60% peak oxygen uptake for 45 min following acute administration of a placebo (PLAC) or enalapril (ENAL), an angiotensin converting enzyme inhibitor (ACE-I). Resting mean arterial pressure (MAP) was reduced by ENAL, but the pressor response to exercise was unaffected [delta MAP = 7.8 (1.4)mmHg for both trials (P > 0.05)]. Peak esophageal temperature [T(es) = 38.7 (1.0) degrees C (PLAC) vs 38.4 (0.2) degrees C (ENAL)] and mean skin temperatures [Tsk = 36.5 (0.1) degrees C (PLAC) vs 36.6 (0.1) degrees C (ENAL)] were similar for both drug treatments during the exercise. Both aldosterone and plasma renin activity (PRA) increased five fold above resting values during exercise; however, only the PRA response [16.7 (3.2) ng angiotensin I (Ang I).ml-1.h-1 (ENAL) vs 7.4 (1.2)ng Ang I.ml-1.h-1 (PLAC)] was significantly altered by ENAL treatment (P < 0.05). Urine flow, sodium excretion and glomerular filtration rates, determined from creatinine clearance, were similarly reduced following exercise for both ENAL and PLAC treatments. These results suggest acute administration (5 mg) of ACE-I does not impair thermoregulatory, cardiovascular or renal responses during moderate exercise in the heat.
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PMID:Influence of angiotensin II blockade during exercise in the heat. 892 29

Many G protein-coupled receptors (e.g. that of angiotensin II) activate phospholipase Cbeta, initially increasing intracellular calcium and activating protein kinase C. In the WB and GN4 rat liver epithelial cell lines, agonist-induced calcium signals also stimulate tyrosine phosphorylation and subsequently increase the activity of c-Jun N-terminal kinase (JNK). We have now purified the major calcium-dependent tyrosine kinase (CADTK), and by peptide and nucleic acid sequencing identified it as a rat homologue of human PYK2. CADTK/PYK2 is most closely related to p125(FAK) and both enzymes are expressed in WB and GN4 cells. Angiotensin II, which only slightly increases p125(FAK) tyrosine phosphorylation in GN4 cells, substantially increased CADTK tyrosine autophosphorylation and kinase activity. Agonists for other G protein-coupled receptors (e.g. LPA), or those increasing intracellular calcium (thapsigargin), also stimulated CADTK. In comparing the two rat liver cell lines, GN4 cells exhibited approximately 5-fold greater angiotensin II- and thapsigargin-dependent CADTK activation than WB cells. Although maximal JNK activation by stress-dependent pathways (e.g. UV and anisomycin) was equivalent in the two cell lines, calcium-dependent JNK activation was 5-fold greater in GN4, correlating with CADTK activation. In contrast to JNK, the thapsigargin-dependent calcium signal did not activate mitogen-activated protein kinase and Ang II-dependent mitogen-activated protein kinase activation was not correlated with CADTK activation. Finally, while some stress-dependent activators of the JNK pathway (NaCl and sorbitol) stimulated CADTK, others (anisomycin, UV, and TNFalpha) did not. In summary, cells expressing CADTK/PYK2 appear to have two alternative JNK activation pathways: one stress-activated and the other calcium-dependent.
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PMID:Activation of a novel calcium-dependent protein-tyrosine kinase. Correlation with c-Jun N-terminal kinase but not mitogen-activated protein kinase activation. 893 45

In this review, the role of tyrosine kinases in angiotensin II-mediated signal transduction pathways in vascular smooth muscle is discussed. Angiotensin II was isolated by virtue of its vasoconstrictor abilities and has long been thought to play a critical role in hypertension. However, recent studies indicate important roles for angiotensin II in inflammation, atherosclerosis, and congestive heart failure. The expanding role of angiotensin II indicates that multiple signal transduction pathways are likely to be activated in a tissue-specific manner. Exciting recent data show that angiotensin II directly stimulates tyrosine kinases, including pp60(c-src) kinase (c-Src), focal adhesion kinase (FAK), and Janus kinases (JAK2 and TYK2). Angiotensin II may activate receptor tyrosine kinases, such as Axl and platelet-derived growth factor, by as-yet-undefined autocrine mechanisms. Finally, unknown tyrosine kinases may mediate tyrosine phosphorylation of Shc, Raf, and phospholipase C-gamma after angiotensin II stimulation. These angiotensin II-regulated tyrosine kinases appear to be required for angiotensin II effects, such as vasoconstriction, proto-oncogene expression, and protein synthesis, on the basis of studies with tyrosine kinase inhibitors. Thus, understanding angiotensin II-stimulated signaling events, especially those related to tyrosine kinase activity, may form the basis for the development of new therapies for cardiovascular diseases.
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PMID:Angiotensin II signal transduction in vascular smooth muscle: role of tyrosine kinases. 913 Apr 41


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