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)

One of the most fundamental questions in biology is how a cell is able to regulate its division cycle. Initially it was thought that in mammalian cells control over entry into the cell cycle is exerted at a restriction point in G1; once past this point the cell would be free to undergo all the steps needed until the following division. Hence, for many years research on tumorigenesis focused on the mitogenic activation of quiescent cells by growth factors, peptide hormones and oncogene products (for reviews see [1, 2]). These studies investigated the initial steps required to induce a quiescent, nondividing cell to proliferate, and led to the identification of many growth factor receptors, of both the tyrosine kinase family and the G-protein coupled family. Receptors bearing protein tyrosine phosphatase or serine kinase catalytic domains were also identified via this route (for reviews see [3, 4, 5]). However more recent studies on the cooperation between different growth factors for mitogenesis have shown that multiple requirements exist for a cell to proceed through the entire division cycle. Indeed studies in several different organisms, pioneered by investigators working with Ascomycetes [6, 7, 8], have now clearly shown that the eukaryotic cell cycle proceeds through multiple check-points. Furthermore, it now appears that many of the regulatory elements and even pathways have been conserved throughout evolution. In this review we discuss the possible involvement of one of the transducing molecules, cyclin A, in abnormal cell proliferation.
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PMID:Cyclin A, cell cycle control and oncogenesis. 183 23

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

We have characterized a novel ecto-protein kinase activity and a novel ecto-protein phosphatase activity on the membrane surface of human platelets. Washed intact platelets, when incubated with [gamma-32P]ATP in Tyrode's buffer, showed the phosphorylation of a membrane surface protein migrating with an apparent molecular mass of 42 kDa on 5-15% SDS polyacrylamide gradient gels. The 42 kDa protein could be further resolved on 15% SDS gels into two proteins of 39 kDa and 42 kDa. In this gel system, it was found that the 39 kDa protein became rapidly phosphorylated and dephosphorylated, whereas the 42 kDa protein was phosphorylated and dephosphorylated at a much slower rate. NaF inhibited the dephosphorylation of these proteins indicating the involvement of an ecto-protein phosphatase. The platelet membrane ecto-protein kinase responsible for the phosphorylation of both of these proteins was identified as a serine kinase and showed dependency on divalent cations Mg2+ or Mn2+ ions. Ca2+ ions potentiated the Mg(2+)-dependent ecto-protein kinase activity. The ecto-protein kinase rapidly phosphorylated histone and casein added exogenously to the extracellular medium of intact platelets. Following activation of platelets by alpha-thrombin, the incorporation of [32P]phosphate from exogenously added [gamma-32P]ATP by endogenous protein substrates was reduced by 90%, suggesting a role of the ecto-protein kinase system in the regulation of platelet function. The results presented here demonstrate that both protein kinase and protein phosphatase activities reside on the membrane surface of human platelets. These activities are capable of rapidly phosphorylating and dephosphorylating specific surface platelet membrane proteins which may play important roles in early events of platelet activation and secretion.
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PMID:Phosphorylation and dephosphorylation of human platelet surface proteins by an ecto-protein kinase/phosphatase system. 185 Mar 5

Interleukin 1 (IL1) increased phosphorylation of the small heat-shock protein (hsp 27) in MRC5 fibroblasts. The increase was maintained for at least 30 min, but levels had returned to pre-stimulation values by 2 h. When hsp 27 was metabolically labelled with [3H]leucine, about 15% was phosphorylated in resting confluent cells; this rose to 90% upon stimulation by IL1. Peptide maps of the three differently charged phosphorylated forms were consistent with their arising by phosphorylation of increasing numbers of serine residues. IL1 had the same effect on hsp 27 in pig articular chondrocytes, endothelial cells from human umbilical vein and an epidermoid carcinoma cell line (KB). Certain other agents were found selectively to increase phosphorylation of hsp 27 in MRC5 cells besides IL1 [and tumour necrosis factor (TNF)]. Platelet-derived growth factor had a similar effect to that of IL1; bradykinin, acid fibroblast growth factor and ATP caused an intermediate effect; phorbol myristate acetate (PMA) and 1-oleoyl-2-acetylglycerol had smaller effects. Dibutyryl cyclic AMP and forskolin had no effects on hsp 27 phosphorylation. When cells had been depleted of protein kinase C (PKC) by prolonged treatment with PMA, stimulation by IL1, TNF or bradykinin still increased hsp 27 phosphorylation. The stimulation by all three agents was also unaffected by the PKC inhibitor staurosporine. IL1, TNF and bradykinin each caused hsp 27 phosphorylation by a pathway independent of PKC. The results are consistent with IL1 activating a serine kinase which remains to be identified.
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PMID:Phosphorylation of the small heat-shock protein is regulated by interleukin 1, tumour necrosis factor, growth factors, bradykinin and ATP. 187 99

Modification of cellular proteins via phosphorylation is known to be a major regulatory mechanism whereby external stimuli control intracellular events. We demonstrated that bacterial LPS induced a distinct set of phosphorylated protein (pp) in murine peritoneal macrophages, and that the LPS-induced pp were specifically located in cytosol and/or membrane fractions. One of the most heavily phosphorylated substrate proteins with a molecular mass of 65 kDa (pp65) was purified to homogeneity via SDS-PAGE analysis and autoradiography by sequential chromatography on Sephacryl S-200, HPLC anion exchange, and hydroxyapatite HPLC. Our pp65 is apparently the first purified LPS-induced pp, and is thought to be a novel protein. Serine residues on pp65 were found to be exclusively phosphorylated, indicating a contribution by LPS-inducible serine kinase. Interestingly, LPS-induced phosphorylation of pp65 was not observed in macrophages from a LPS-nonresponsive C3H/HeJ strain of mice, although their macrophages had about the same amounts of unphosphorylated p65 as normal macrophages when detected under Western blot analysis by using polyclonal anti-pp65 antibodies. This suggests that the functional defect of C3H/HeJ macrophages exists somewhere in the process before the pp65 phosphorylation. Moreover, the degree of the pp65 phosphorylation in macrophages stimulated with LPS or lipd A correlated well to that of cellular responses such as IL-1 production in the same macrophages. Considering these observations, the pp65 seems to play a crucial role in macrophage activation, and the studies on the structure and function of the pp65 should lead to progress in our understanding of the mechanisms of macrophage activation by LPS.
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PMID:Purification and characterization of the 65-kDa protein phosphorylated in murine macrophages by stimulation with bacterial lipopolysaccharide. 202 84

In these studies we demonstrate that insulin stimulates both tyrosine and serine phosphorylation of the insulin receptor after its partial purification on wheat germ-agarose, and after affinity purification on insulin-agarose. Analysis of the serine phosphate incorporated into partially purified or highly purified insulin receptor suggests that an insulin-sensitive serine kinase (IRSK) copurifies with the insulin receptor. Following trypsin digestion, reversed-phase high pressure liquid chromatography (HPLC) analysis of the phosphorylated, affinity-purified insulin receptor preparation reveals phosphopeptide profiles similar to those of trypsin-digested receptors immunoprecipitated from 32P-labeled fibroblasts overexpressing the human insulin receptor. The major insulin-stimulated HPLC phosphopeptide peak from insulin receptors labeled in intact cells contains a hydrophilic phosphoserine-containing peptide which rapidly elutes from a C18 column. HPLC and two-dimensional separation indicate that the same phosphopeptide is obtained when affinity-purified insulin receptors are phosphorylated by IRSK. The serine containing tryptic peptide within the cytoplasmic domain of the human insulin receptor predicted to elute most rapidly upon HPLC had the sequence SSHCQR corresponding to residues 1293-1298. A synthetic peptide containing this sequence is phosphorylated by the insulin receptor/IRSK preparation. After alkylation and trypsin digestion, the synthetic phosphopeptide comigrates with the alkylated, tryptic phosphopeptide derived from insulin receptor phosphorylated in vitro by IRSK. We propose that serine 1293 or 1294 of the human insulin receptor is a major site(s) phosphorylated on the insulin receptor in intact cells and is phosphorylated by IRSK. Furthermore, insulin added directly to affinity-purified insulin receptor/IRSK preparations stimulates the phosphorylation of synthetic peptides corresponding to this receptor phosphorylation site and another containing threonine 1336. Kemptide phosphorylation is not stimulated by insulin under these conditions. No phosphorylation of peptide substrates for Ca2+/calmodulin-dependent protein kinase, protein kinase C, casein kinase II, or cGMP-dependent protein kinase by IRSK is detected. These data indicate that IRSK exhibits specificity for the insulin receptor and may be activated by the insulin receptor tyrosine kinase in an insulin-dependent manner.
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PMID:Insulin-sensitive phosphorylation of serine 1293/1294 on the human insulin receptor by a tightly associated serine kinase. 213 51

DARPP-32, a dopamine- and cyclic AMP-regulated phosphoprotein of Mr 32,000, is phosphorylated in vitro by casein kinase II at a site which is also phosphorylated in intact cells. In the present study, we show that a protein kinase activity, present in caudate-putamen cytosol, phosphorylates DARPP-32 on a seryl residue located on the same thermolytic peptide that is phosphorylated by purified casein kinase II. This DARPP-32 serine kinase was indistinguishable from casein kinase II on the basis of a number of biochemical criteria. Excitotoxic lesions of the caudate-putamen and immunocytochemistry revealed the presence of casein kinase II in the medium-sized striatonigral neurons which are known to contain DARPP-32. Casein kinase II activity was high in all rat brain regions studied, and casein kinase II-like immunoreactivity was detected in most brain neurons, although some neuronal populations (e.g., cortical pyramidal cells and large striatal neurons) were stained more intensely than others. In rat caudate-putamen, 45% of the total casein kinase II activity was in the cytosol and 20% in the synaptosomal fraction. In mouse cerebral cortex and caudate-putamen, casein kinase II activity was high at embryonic day 16, and remained elevated during development. In addition to DARPP-32, several major substrates for casein kinase II were observed specifically in brain, but not in liver extracts. The high activity of casein kinase II in brain from the embryonic period to adult age and the existence of a number of specific substrates suggest that this enzyme may play an important role in both developing and mature brain, possibly in modulating the responsiveness of target proteins to various extracellular signals.
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PMID:Characterization in mammalian brain of a DARPP-32 serine kinase identical to casein kinase II. 214 98

Signaling via the alpha-beta T cell Ag receptor (Ti)-CD3 complex is a complicated event that implicates several protein kinases, most notably protein kinase C (PKC). We have recently identified a serine kinase in T lymphocytes with the following characteristics: molecular mass 43 kDa, in vitro substrate affinity for microtubule associated protein 2 (MAP-2) with a preference for Mn2+ during the catalytic reaction, and elution from DEAE resin over a salt range 100 to 200 mM NaCl. This kinase is activated in a rapidly reversible fashion during ligation of CD3/Ti by a process which involves prior phosphorylation; in vitro exposure of activated 43-kDa MAP-2 kinase (MAP-K) to an immobilized phosphatase abrogated its kinase activity. We now show that a MAP-2K response could also be obtained during treatment with mAb to Ti and the specific PKC agonist, PMA. Although the kinetics of the former response was rapidly reversible, PMA elicited a more prolonged response. The dose responsiveness for PMA was similar to the requirements for PKC activation in intact lymphocytes. Moreover, as with PKC, we found that the CD3-induced MAP-2K response could be further enhanced by using a second layer cross-linking antibody. The specificity of CD3/Ti in the Jurkat cell response is demonstrated by the fact that OKT-11(CD2) and anti-CD4 mAb did not stimulate a MAP-2K response. It was also not possible to elicit a response in a Jurkat cell mutant that lacks surface expression of CD3 and Ti. The specificity of PKC in these events was further explored with the cell permeant diacylglycerol, 1-oleoyl-2-acetylglycerol, and the nonagonist phorbol ester, 4 alpha-phorbol 12,13-didecanoate: whereas the former was an effective inducer of the MAP-2K response, the latter failed to yield any stimulation. Prior exposure of Jurkat cells to 100 mM PMA for 24 h eliminated greater than 60% of the MAP-2K response during anti-CD3 treatment. This response could also be inhibited in dose-dependent fashion by prior treatment of Jurkat cells with the potent PKC inhibitor 1-(5-isoquinolinesulfonyl) 2-methylpiperazine dihydrochloride. Although a Ca2(+)-ionophore failed to synergize with PMA at inducing a MAP-2K response, depletion of extracellular Ca2+ by EGTA abrogated anti-CD3 responsiveness. The events culminating in MAP-2K activation were slightly inhibited in the presence of cholera toxin but not pertussis toxin.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Stimulation of MAP-2 kinase activity in T lymphocytes by anti-CD3 or anti-Ti monoclonal antibody is partially dependent on protein kinase C. 215 31

Since the identification of the insulin receptor by insulin-binding activity almost two decades ago, our understanding of the structure and function of the insulin receptor has progressed tremendously. The importance of the intrinsic tyrosine protein kinase activity of the insulin receptor is implied by the fact that the insulin receptor belongs to a family of receptor tyrosine kinases which play a role in growth control, by experiments demonstrating the intimate association of normal kinase activity and insulin action, and by evidence that the intrinsic kinase activity can be regulated under certain conditions. There are still some major gaps in our knowledge concerning the structure/function of the insulin receptor such as how activation of the intrinsic kinase activity of the receptor leads to altered cellular physiology. The kinase may phosphorylate endogenous substrates or autophosphorylation may simply alter beta subunit conformation so it can then interact with an effector system (i.e. a serine kinase) directly, or indirectly through a G-protein. The truth may lie somewhere between these two pathways.
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PMID:Intrinsic kinase activity of the insulin receptor. 215 22

A new eukaryotic initiation factor 2 kinase has been purified for the first time from calf brain cytosol. The purification of a nonabundant novel protein kinase activity, designated as PKI, that phosphorylates the alpha subunit of eukaryotic initiation factor 2 is described. The protein kinase activity was assayed using purified initiation factor 2 as a substrate and was purified by ammonium sulphate precipitation, conventional chromatography in heparin-Sepharose and phosphocellulose and by high performance size exclusion and anion exchange chromatographies. The protein kinase activity elutes in the region of 140,000 in the size exclusion chromatography and is associated with two different polypeptides a and b, with relative molecular masses of 38,000 and 20,000 and an approximate ratio of 2.5-3.0:1. The protein kinase does not phosphorylate casein or histones and it is independent of cyclic nucleotides. It can be classified as a serine kinase since the phosphorylation of the alpha subunit of eIF-2 is produced in serine residues. Under these conditions none of the kinase subunits are phosphorylated.
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PMID:Purification of a novel eIF-2 alpha protein kinase from calf brain. 230 40


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