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:2.7.11.1 (protein kinase)
81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To explore the molecular mechanisms of nerve growth factor (NGF) action, we have attempted to identify proteins that immunoprecipitate with the NGF receptor. An anti-NGF receptor antibody was developed that immunoprecipitated the 75-Kd receptor in PC-12 cells. In [35S]methionine-labeled cells lysed with nonionic detergent, immunoprecipitation with this antireceptor antisera specifically brought down several associated proteins, although prior treatment of cells with NGF produced no apparent change in the distribution of these proteins. However, in vitro phosphorylation assays of the immunoprecipitated complex revealed the presence of a serine kinase that phosphorylated two predominant substrates with Mrs of 60 and 130 Kd. Prior treatment of cells produced no change in the appearance of the 60-Kd phosphoprotein, but NGF did stimulate the appearance of the 130-Kd protein. This effect was observed with as little as 0.1 nM NGF and was maximal at 5 min, but declined thereafter. Prior treatment of cells with NGF did not increase the phosphorylation of enolase added exogenously to the immunoprecipitates, suggesting that this action of NGF may have reflected the hormone-dependent association of the 130-Kd protein with the receptor, rather than activation of a receptor-associated kinase. Thus the association of the NGF 75-Kd receptor with a 130-Kd protein may be involved in signal transduction for the growth factor, although the role of this receptor in the NGF-dependent tyrosine phosphorylation remains unclear.
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PMID:Nerve growth factor induces the association of a 130-Kd phosphoprotein with its receptor in PC-12 pheochromocytoma cells. 166 Mar 8

A high molecular mass dynein ATPase polypeptide and a 18-20 kDa dynein light chain of Ciona sperm flagella are phosphorylated during in vivo activation of motility or in vitro activation of motility by incubation with cyclic AMP. A similar level of phosphorylation of these proteins is obtained by incubation of washed, demembranated spermatozoa with catalytic subunit of cyclic AMP-dependent protein kinase, under conditions where there is no activation of motility until a supernatant component is added. Therefore, phosphorylation of these dynein polypeptides is not sufficient for activation of motility. Activation of motility in vitro by incubation with cyclic AMP can be completely inhibited by a random copolymer of glutamate and tyrosine that inhibits tyrosine kinase activity. Under these conditions, much of the protein phosphorylation associated with activation of motility is also inhibited. These new results suggest that regulation of motility of these spermatozoa may involve a multicomponent kinase cascade rather than a simple phosphorylation of a protein 'switch' by the cyclic AMP-dependent kinase. A 53 kDa axonemal phosphoprotein band, identified as band M1, shows the strongest correlation with activation of motility in these experiments.
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PMID:Activation of Ciona sperm motility: phosphorylation of dynein polypeptides and effects of a tyrosine kinase inhibitor. 166 61

The kit protooncogene encodes a transmembrane tyrosine kinase related to the receptors for the platelet derived growth factor (PDGF-R) and the macrophage growth factor (CSF1-R), and was very recently shown to bind a stem cell factor. To compare signal transduction by the kit kinase with signaling by homologous receptors we constructed a chimeric protein composed of the extracellular domain of the epidermal growth factor receptor (EGF-R) and the transmembrane and cytoplasmic domains of kit. We have previously shown that the chimeric receptor transmits potent mitogenic and transforming signals in response to the heterologous ligand. Here we demonstrate that upon ligand binding, the ligand-receptor complex undergoes endocytosis and degradation and induces short- and long-term cellular effects. Examination of the signal transduction pathway revealed that the activated kit kinase strongly associates with phosphatidylinositol 3'-kinase activity and a phosphoprotein of 85 kd. In addition, the ligand-stimulated kit kinase is coupled to modifications of phospholipase C gamma and the Raf1 protein kinase. However, it does not lead to a significant change in the production of inositol phosphate. Comparison of our results with the known signaling pathways of PDGF-R and CSF1-R suggests that each receptor is coupled to a specific combination of signal transducers.
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PMID:A specific combination of substrates is involved in signal transduction by the kit-encoded receptor. 170 85

We have approached the functioning of a MAP kinase, which is thought to be a "switch kinase" in the phosphorylation cascade initiated from various receptor tyrosine kinases including the insulin receptor. To do so, antipeptide antibodies were raised against the C-terminal portion of ERK1 (extracellular signal-regulated kinase 1), a protein kinase belonging to the family of MAP kinases. With these antipeptide antibodies, we observed the following: (i) a 44-kDa protein can be specifically recognized both under native and denaturing conditions; (ii) a 44-kDa phosphoprotein can be revealed in 32P-labeled cells; its phosphorylation is stimulated by insulin, sodium orthovanadate, and okadaic acid; (iii) a MBP kinase activity can be precipitated, which phosphorylates MBP on threonine residues, and which is stimulated by insulin, sodium orthovanadate, okadaic acid, and fetal calf serum; (iv) this MBP kinase activity appears to be correlated with the in vivo induced phosphorylation of the 44-kDa protein. We next studied the in vitro phosphorylation of this 44-kDa/ERK1-immunoreactive protein. A time- and manganese-dependent phosphorylation was stimulated by the in vitro addition of sodium orthovanadate. Phosphoamino acid analysis of the in vitro phosphorylated 44-kDa protein revealed both threonine and tyrosine phosphorylation. Importantly, this in vitro phosphorylation of MAP kinase results in activation of phosphorylation of added MBP substrate. As a whole, our data indicate that the 44-kDa phosphoprotein identified by our antipeptide antibodies very likely corresponds to a MAP kinase.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Tyrosine and threonine phosphorylation of an immunoaffinity-purified 44-kDa MAP kinase. 171 57

We have shown previously that cytoplasmic extracts from actively dividing lymphoid cells are capable of inducing DNA synthesis in isolated nuclei. One of the factors involved in this activity, ADR, appears to be a greater than 90 kDa heat-labile protease. Cytoplasmic extracts prepared from nonproliferating lymphocytes express little to no ADR activity. However, ADR activity can be generated in these extracts by brief exposure to a membrane-enriched fraction of spontaneously proliferating, leukemic human T lymphoblastoid (MOLT-4) cells. This suggests that ADR activity is present in the resting cytoplasm in an inactive or precursor form. This in vitro generation of ADR activity can be inhibited in a dose-dependent manner by the isoquinolinesulfonamide derivative, H-7 (1-(5-isoquinoline-sulfonyl)-2-methylpiperazine dihydrochloride), an inhibitor of both cyclic adenosine monophosphate (cAMP)-dependent protein kinases and protein kinase C (PKC). However, more specific inhibitors of cAMP-dependent protein kinases, including N-[( 2-methylamino)ethyl]-5-isoquinolinesulfonamide dihydrochloride (H8) and N-(2-gua-nidinoethyl)-5-isoquinolinesulfonamide (HA-1004), had little to no effect on the in vitro generation of ADR activity. Furthermore, membranes from MOLT-4 cells depleted of PKC by long-term exposure (24 h) to phorbol esters and calcium ionophores were unable to induce ADR activity in resting peripheral blood lymphocytes extracts. The results of these studies suggest 1) ADR activity is present in resting cell cytoplasm in an inactive or precursor form; and 2) ADR activity can be induced in this resting cytoplasm through a mechanism involving a membrane-associated protein kinase, possibly PKC. The ability of alkaline phosphatase to deplete the activity of preformed ADR suggests the possibility that ADR itself is phosphoprotein.
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PMID:Induction of a cytoplasmic activator of DNA synthesis in lymphocytes is mediated through a membrane-associated protein kinase. 172 28

The phosphoprotein profiles of T. annulata-infected and uninfected leukocyte cell lines were compared by both in vivo and in vitro labeling assays. Three phosphoproteins were unique to T. annulata-infected cells, while a further two were quantitatively increased relative to uninfected cells. In addition, two proteins were present and phosphorylated only in the uninfected cell lines, suggesting either a repression of these proteins or their dephosphorylation upon infection of the host cell by the parasite. In order to determine if alterations in protein kinase activity may be responsible for these differences, as opposed to levels of available substrate, an in situ electrophoretic protein kinase assay was developed. This assay allowed a crude separation of protein kinases and revealed alterations in the protein kinase profile of Theileria-infected cells which reflected the differences observed in phosphoprotein profiles. Two protein kinases were unique to infected cells, a further two were more active in infected cells while one was more active in uninfected cells.
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PMID:Theileria annulata: alterations in phosphoprotein and protein kinase activity profiles of infected leukocytes of the bovine host, Bos taurus. 174 Jan 81

Stimulation of T cell antigen receptor (TCR/CD3) following the recognition of peptide-major histocompatibility antigen complex induces phosphatidylinositol 4,5-bisphosphate (PIP2) hydrolysis. However, the phospholipase C (PLC) enzyme mediating this process has not been identified. We report that PLC gamma 1 protein is expressed in human T cells. It is a phosphoprotein, and the activation of cyclic AMP-dependent protein kinase (PKA) or of protein kinase C (PKC) with forskolin or phorbol ester, respectively, increases the level of phosphorylation. CD3 stimulation of T cells induces tyrosine phosphorylation of PLC gamma 1 and causes 8-10-fold higher yield of PLC activity with anti-phosphotyrosine antibody (APTyr Ab) from activated cells than from non-activated cells. Genistein, an inhibitor of protein tyrosine kinase, decreases this yield of AP-Tyr Ab-bound PLC activity from activated cells and lowers the level of Ca2+ mobilization. Furthermore, phorbol ester and forskolin treatment of cells before CD3 stimulation reduces the level of tyrosine phosphorylation of PLC gamma 1 and the PLC activity associated with APTyr Ab. These results suggest that CD3 stimulation activates PIP2 hydrolysis by inducing tyrosine phosphorylation of PLC gamma 1, which is regulated negatively by PKC and PKA.
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PMID:PLC gamma 1, a possible mediator of T cell receptor function. 183 54

Incubation of plasma membranes isolated from bovine aorta with either 0.5 mM CaCl2 or with a phorbol ester (1 microM phorbol 12,13-dibutyrate) and phosphatidylserine in an EGTA-containing buffer resulted in the phosphorylation of 10 proteins (Mr of 158, 105, 75, 62, 44, 39, 33, 22, 15 and 9 kDa), presumably due to activation of endogenous protein kinase C (PKC). After heat treatment of the aortic plasma membranes at 80 degrees C for 5 min in order to inactivate all endogenous protein kinase, phosphatase and ATPase activities, membrane phosphorylation was absolutely-dependent upon the addition of an exogenous, partially-purified PKC preparation from bovine aorta. Under these conditions, a total of 17 phosphoproteins could be detected (Mr of 158, 105, 75, 44, 39, 33, 30, 29, 27, 25, 22, 17.5, 16, 15, 11, 10 and 9 kDa). The most prominent phosphoprotein band in native membranes had a molecular weight of 75 kDa (p75); several characteristics suggest that p75 might be autophosphorylated PKC. The phosphorylation of aortic plasma membranes by exogenous PKC required phosphatidylserine and was calcium-dependent (10(-5) to 10(-7) M Ca2+); the addition of diolein resulted in little or no enhancement of phosphorylation. Replacement of phosphatidylserine with oleic acid resulted in the same number of phosphoproteins, but the extent of phosphorylation was diminished. The phosphorylation pattern was altered slightly if the aortic plasma membranes were isolated in the presence of 1 mM Ca2+ instead of EGTA buffers as in the standard procedure. Experiments were performed to determine if the p39 substrate of PKC in aortic plasma membranes was calpactin II (lipocortin I). Immunoblotting established that calpactin II was present in aortic plasma membranes, but there was no corresponding phosphoprotein on the autoradiographs.
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PMID:Phosphorylation of aortic plasma membranes by protein kinase C. 183 27

The localization and identity of the human platelet 24 kDa cyclic AMP (cAMP)-dependent phosphoprotein, previously reported to regulate Ca2+ transport, was investigated. It was found to be located on plasma membranes after isolation of these membranes from microsomes. Thus cAMP-dependent regulation of Ca2+ transport was associated with the plasma membrane fraction. Time course studies showed that the catalytic subunit of cAMP-dependent protein kinase (c-sub) induced a maximal 2-fold stimulation of Ca2+ uptake by the plasma membrane vesicles. This stimulation was dose-dependent up to 15 micrograms of c-sub/ml. The increase in Ca2+ uptake also depended upon the outside Ca2+ concentration, and was maximal at 1 microM. As regards the identity of the phosphoprotein, it was clearly distinct from the beta-subunit of glycoprotein Ib, as after electrophoresis under reduced conditions it appeared as a 24 kDa protein, but under non-reduced conditions it appeared as a 22 kDa and not as a 170 kDa protein. Nevertheless, glycoprotein Ib was certainly present, because it was detected with two polyclonal antibodies raised against its two subunits. Furthermore, the 24 kDa phosphoprotein was also present in membranes isolated from platelets obtained from patients with Bernard Soulier Syndrome; these membranes contain no glycoprotein Ib.
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PMID:The phosphoprotein that regulates platelet Ca2+ transport is located on the plasma membrane, controls membrane-associated Ca2(+)-ATPase and is not glycoprotein Ib beta-subunit. 184 43

The protein-tyrosine kinases (PTKs) are a burgeoning family of proteins, each of which bears a conserved domain of 250 to 300 amino acids capable of phosphorylating substrate proteins on tyrosine residues. We recently exploited the existence of two highly conserved sequence elements within the catalytic domain to generate PTK-specific degenerate oligonucleotide primers (A. F. Wilks, Proc. Natl. Acad. Sci. USA 86:1603-1607, 1989). By application of the polymerase chain reaction, portions of the catalytic domains of several novel PTKs were amplified. We describe here the primary sequence of one of these new PTKs, JAK1 (from Janus kinase), a member of a new class of PTK characterized by the presence of a second phosphotransferase-related domain immediately N terminal to the PTK domain. The second phosphotransferase domain bears all the hallmarks of a protein kinase, although its structure differs significantly from that of the PTK and threonine/serine kinase family members. A second member of this family (JAK2) has been partially characterized and exhibits a similar array of kinase-related domains. JAK1 is a large, widely expressed membrane-associated phosphoprotein of approximately 130,000 Da. The PTK activity of JAK1 has been located in the C-terminal PTK-like domain. The role of the second kinaselike domain is unknown.
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PMID:Two novel protein-tyrosine kinases, each with a second phosphotransferase-related catalytic domain, define a new class of protein kinase. 184 70


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