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:2.7.11.13 (protein kinase C)
49,245 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A GALT-derived B lymphoma, T560, that bears IgAR is described. T560 is IgG2a kappa +, Ia+, B220+, J11d+, Thy-1-, CD3-, CD4-, CD5-, Mac 1-, Mac 2-, nonspecific esterase negative and binds bromelain-treated mouse RBC but not SRBC or ORBC. It presents antigen, secretes IL-1, IL-4 and IL-6 but not IL-2, IL-5 or TGF beta and appears to be related to the Lyt 1+(CD5) lineage of B cells though it lacks Lyt 1. T560 bears IgAR that, on the cell surface, are completely cross-inhibited by low concentrations of IgM and by high concentrations of IgG2a and IgG2b. They do not appear to represent a cell-surface form of galactosyl transferase. They are inducible by high concentrations of IgA, sensitive to trypsin and insensitive to neuraminidase. They are down-regulated by activation of PKC with PMA, but their recovery is not inhibited by cycloheximide, indicating that they are not degraded or shed. They may either lose their affinity for IgA or be internalized without degradation. Seventy percent of IgA receptor activity is lost when T560 is treated with PI-PLC; part of this loss of activity is due to activation of PKC and is inhibited by staurosporine, but approximately 30% of it is not protected by staurosporine indicating that some, or all, of the IgA receptor of T560 is connected to the cell membrane via a GPI linker. The T560 IgA receptor could be related to the poly-Ig or M cell receptor.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Sensitivity of receptors for IgA on T560, a murine B lymphoma, to phorbol myristate acetate and to phosphatidylinositol-specific phospholipase C. 165 5

A protein kinase that is activated by calcium and lipid has been partially purified from the plasma membrane of oat roots. This protein kinase cross-reacts with four monoclonal antibodies directed against a soluble calcium-dependent protein kinase from soybean described previously [Putman-Evans, C. L., Harmon, A. C., & Cormier, M. J. (1990) Biochemistry 29, 2488-2495; Harper, J. F., Sussman, M. R., Schaller, G. E., Putnam-Evans, C., Charbonneau, H., & Harmon, A. C. (1991) Science 252, 951-954], indicating that the oat enzyme is a member of this calcium-dependent protein kinase family. Immunoblots demonstrate that the membrane-derived protein kinase is slightly larger than that observed in the cytosolic fraction of oat. Limited digestion of the membrane-derived kinase with trypsin generates a smaller water-soluble kinase that is still activated by calcium but is no longer activated by lipid. When posthomogenization proteolysis is minimized, the bulk of the immunoreactive kinase material is localized in the membrane. These results suggest that a calcium-dependent protein kinase observed in the supernatant fraction of oat extracts may originate in situ from a calcium- and lipid-dependent protein kinase which is associated with the oat plasma membrane. They further indicate that, in contrast to animal cells, the predominant calcium- and lipid-dependent protein kinase associated with the plasma membrane of plant cells has biochemical properties and amino acid sequence unlike protein kinase C.
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PMID:Characterization of a calcium- and lipid-dependent protein kinase associated with the plasma membrane of oat. 173 26

Smooth muscle caldesmon was phosphorylated by protein kinase C up to 1.90 mol P/mol caldesmon. Phosphorylated caldesmon was completely digested by trypsin and the produced phosphopeptides were purified by C-8 and C-18 reverse phase chromatography. Four phosphopeptides were determined and two phosphoserines were identified. Both were localized in the C-terminal domain at serine-587 and serine-726. By following the time course of phosphorylation, serine-587 was found to be the preferred site. Effects of the phosphorylation of caldesmon by protein C on the inhibition of acto-H-meromyosin ATPase activity was also examined. While unphosphorylated caldesmon inhibited the ATPase activity by 60%, phosphorylated caldesmon hardly inhibited the ATPase activity. Therefore, it was concluded that the phosphorylation at serine-726 and serine-587 reverses the inhibitory activity of caldesmon.
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PMID:Determination of the phosphorylation sites of smooth muscle caldesmon by protein kinase C. 189 46

The cellular mechanisms for aldosterone biosynthesis are incompletely understood. Although the enzymes involved are now well characterized, the dynamics of aldosterone secretion in a variety of rat adrenal preparations are not consistent with the concept that freshly synthesized corticosterone is an important intermediate. In whole glomerulosa tissue preparations, aldosterone is more readily formed from endogenous precursors than from an added radioactive precursor, such as [3H]pregnenolone, and in the in situ perfused gland preparation, aldosterone responses to stimulation, for example by ACTH, are significantly more rapid than those of corticosterone, suggesting a tissue source of steroid substrate for aldosterone production other than corticosterone. The only steroid which is stored in rat adrenal glomerulosa tissue to any extent is 18-hydroxydeoxycorticosterone (18-OH-DOC), and this pool has been located in plasma membrane fractions. It is lost on preparation of collagenase dispersed glomerulosa cells. Since dispersed glomerulosa cell preparations produce significantly less aldosterone, relative to corticosterone, than incubated intact whole glomerulosa, it is plausible that this tissue pool (which is not found in the inner zones) is the immediate precursor for aldosterone formation. Further evidence shows that trypsin, which stimulates aldosterone (and 18-hydroxycorticosterone) production in rat intact glomerulosa tissue, but not in dispersed cells, stimulates translocation of protein kinase C to the plasma membrane. It is plausible that one function of protein kinase C in the rat adrenal zona glomerulosa is to mobilize membrane sequestered 18-OH-DOC for conversion to aldosterone.
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PMID:The biosynthesis of aldosterone. 195 74

The membrane-bound transglutaminase of cultured keratinocytes became radioactively labelled upon addition of [32P]Pi to the medium. Transglutaminase phosphorylation was also demonstrable using particulate material isolated from cell homogenates. Compatible with mediation of the labelling by protein kinase C, the degree of phosphorylation in intact cells was stimulated approx. 5-fold in 4 h on treatment with the tumour-promoting phorbol ester phorbol 12-myristate 13-acetate, but not by phorbol. The extent of labelling was virtually unaffected by cycloheximide inhibition of protein synthesis, indicating that it arose primarily through turnover of phosphate in the membrane-bound enzyme. Phosphoamino acid analysis detected labelling only of serine residues. Most of the label was removed by trypsin release of the enzyme from the particulate fraction of cell homogenates, which deletes a membrane anchorage region of approximately 10 kDa. Upon trypsin treatment of the enzyme after immunoprecipitation, the phosphate label was recovered in soluble peptide material with a size of several thousand Da or less. Indicative of fragmentation of the membrane anchorage region, this material was separable by h.p.l.c. into two equally labelled peptides. Moreover, when the enzyme was labelled with [3H]palmitate or [3H]myristate, the fatty-acid-labelled peptide material required non-ionic detergent for solubilization and was separable from the phosphate-labelled material by gel filtration. Phorbol ester treatment of cultured keratinocytes in high- or low- Ca2(+)-containing medium was not accompanied by an appreciable protein-synthesis-independent change in transglutaminase activity. Independent of possible alteration of the intrinsic catalytic activity of the enzyme, phosphorylation may well modulate its interaction with substrate proteins, a potential site for physiological regulation.
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PMID:Phorbol ester-stimulated phosphorylation of keratinocyte transglutaminase in the membrane anchorage region. 197 83

1. Rat liver plasma membrane contained two types of protein kinase C which could be extracted by Ca2(+)-chelator and detergent, respectively. The activities of these two enzymes were nearly equivalent. 2. The detergent-extracted protein kinase C, tightly-bound to membrane, was separated into two subtypes by hydroxyapatite column chromatography. Based on the elution profile and the Ca2+/phospholipid requirement, the major and the minor components were identified as type III and type II protein kinase C, respectively. 3. The detergent-extracted protein kinase C was converted to an active fragment with Mr 45,000 by limited proteolysis with trypsin. Incubation under physiological level of ionic strength increased the stability of this active enzyme and protected it from further inactivation by trypsin. 4. Phosphorylation of H1 histone by the protease-activated kinase was stimulated 1.5-2-fold by phosphatidylserine. However, this enzyme phosphorylated multiple proteins in rat liver subcellular fractions in Ca2(+)- and phospholipid-independent manner. 5. These results suggest that the protein kinase C (mainly type III enzyme) tightly-bound to rat liver plasma membrane may have important role through protein phosphorylation by the native or the protease-activated kinase.
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PMID:Studies on protein kinase C tightly-bound to rat liver plasma membrane and its protease-activated form. 201 49

The subcellular distribution, size, and activation state of protein kinase C (PKC) were studied after short term exposure of rabbit platelets to a saturating dose of 12-O-tetradecanoylphorbol 13-acetate (TPA). Cytosolic and Nonidet P-40-solubilized particulate extracts prepared from TPA-treated platelets were subjected to analytical column chromatography on Mono Q, hydroxylapatite, and Superose 6/12. PKC activity was assayed according to the ability of the enzyme to phosphorylate (i) histone H1 in the presence of the activators calcium, diacylglycerol, and phosphatidylserine; (ii) histone H1 after proteolytic activation of PKC with trypsin; and (iii) protamine in the absence of calcium and lipid. Within 1 min of TPA treatment of platelets, greater than 95% of the PKC activity was particulate associated, as assessed by all three methods. The particulate PKC activity from 1-min TPA-treated cells eluted from Mono Q with approximately 0.35 M NaCl (peak I), and it was highly dependent upon Ca2+ and lipid for optimal histone H1 phosphorylation. With longer exposure times of platelets to TPA, the disappearance of the Mono Q peak I form of PKC was correlated with the production of new PKC species that were released from Mono Q with approximately 0.4 M NaCl (peak II), approximately 0.5 M NaCl (peak III), and approximately 0.6 M NaCl (peak IV). These last forms of PKC were still lipid activated but exhibited little Ca2+ dependence. The Mono Q peak III form displayed a particularly high level of histone H1 phosphorylating activity in the absence of lipid and Ca2+. All of these forms behaved as approximately 65-kDa proteins on Superose 6/12, but on sodium dodecyl sulfate-polyacrylamide gels, Western blotting with anti-PKC-beta antibodies revealed immunoreactive polypeptides of approximately 79 kDa (Mono Q peaks I, II, and IV) and approximately 100-kDa (Mono Q peak III). Hydroxylapatite column chromatography permitted partial resolution of the Mono Q peaks I and II forms, which were eluted within a concentration range of potassium phosphate (100-150 mM) which was typical of the beta isozyme of PKC. Treatment of the Mono Q peak III and IV PKC forms with alkaline phosphatase resulted in the production of the peak I form, which implicated protein phosphorylation in the interconversion of the various PKC forms.
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PMID:Characterization of calcium-independent forms of protein kinase C-beta in phorbol ester-treated rabbit platelets. 202 87

Following brief synaptic stimulation, the bag cell neurons in the abdominal ganglion of Aplysia undergo a series of changes in electrophysiological and secretory properties that triggers egg laying behavior. Activation of protein kinase C appears to play an important role in these changes and, in particular, causes the unmasking of a new species of voltage-dependent calcium channel. We have now used isolated bag cell neurons maintained in cell culture to study changes in protein phosphorylation that are induced by exposure to an activator of protein kinase C. Primary cultures of bag cell neurons were labeled with 32P orthophosphate and then incubated with either tetradecanoyl phorbol 13-acetate (TPA), a potent activator of protein kinase C, or with an inactive phorbol ester. When protein extracts were separated with 2D electrophoresis approximately 100 phosphoproteins could be distinguished. Only four of these proteins, with molecular weights of 20, 32, 200, and 250 kD, underwent a reproducible increase in the extent of phosphorylation of at least twofold in response to TPA. TPA-induced changes in phosphate incorporation were blocked by pretreatment with the protein kinase C inhibitor H7. One of the TPA-regulated phosphoproteins was localized in a plasma membrane-containing fraction and was sensitive to trypsin treatment of intact cells, suggesting that it is a membrane protein with sites exposed to the extracellular medium. Two of the other TPA-regulated phosphoproteins may be associated with the inner face of the plasma membrane. Our results indicate that only a small number of proteins undergo a major change in phosphorylation state following the activation of protein kinase C in isolated bag cell neurons. One or more of these proteins may contribute to the unmasking of the calcium channels.
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PMID:Phosphorylation of membrane-associated proteins by phorbol esters in isolated bag cell neurons of Aplysia. 203 Mar 36

In regenerating rat liver, an elevated protein kinase activity was detected which phosphorylated ribosomal protein S6 and histones. The properties of this enzyme were closely similar with those of protease-activated protein kinase C with Mr 45,000. During the study of the mechanism of proteolytic activation, type III protein kinase C (encoding alpha-sequence) was shown to be subjected to limited proteolysis by trypsin-like protease and converted to protein kinase M in ionic strength- and pH-dependent manner. This reaction was stimulated in the presence of Ca2+ and phospholipid under slightly higher ionic strength condition than physiological level (greater than 140 mM NaCl) and alkaline pH (7.5-8.0). These results suggest that activation of Na+/H+ exchanger in plasma membrane may trigger this type of proteolytic activation of protein kinase C. In addition to protein kinase M, another type of protease-activated kinase with Mr 80,000 was detected when limited proteolysis of protein kinase C was performed on inactive form of this enzyme (in the absence of either Ca2+ or phospholipid or both activators) under lower ionic strength condition. The molecular mass of this active enzyme was slightly smaller (approximately 200) than that of native protein kinase C. However, it is not clear at this time whether this small fragment was released from amino-terminal or carboxy-terminal domain to make protein kinase C partially active in the absence of Ca2+ and phospholipid. Although it has been proposed that proteolytic degradation of protein kinase C is involved in down regulation of this enzyme, the physiological significance of these two types of protease-activated forms of protein kinases in liver has remained obscure.
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PMID:Protease-activated protein kinase C in rat liver. 206 12

To begin to understand the regulation and roles of neurofilament phosphorylation, we localized the phosphorylated domains on the 140-145-kDa neurofilament subunit (NF-M) and identified the protein kinases that may specifically phosphorylate the sites within these domains in vivo. Mouse retinal ganglion cells were labeled in vivo by injecting mice intravitreally with [32P]orthophosphate, and neurofilament-enriched fractions were obtained from the optic axons. Two-dimensional phosphopeptide map analysis of NF-M after digestion with alpha-chymotrypsin and trypsin revealed seven major (M8-M14) and at least eight minor (M1-M7 and M15) phosphopeptides. Two-dimensional phosphopeptide map analyses of NF-M phosphorylated in vitro by individual purified or endogenous axonal cytoskeleton-associated protein kinases showed that five peptides (M9-M13) were substrates for the heparin-sensitive second messenger-independent protein kinase(s). Protein kinase A and/or protein kinase C phosphorylated eight other peptides (M1-M8). Two alpha-chymotryptic peptides (C1 and C2) that were phosphorylated by protein kinase A but not by the endogenous independent kinase(s) were isolated by high performance liquid chromatography on a reverse-phase C8 column. Partial sequence analysis of peptides C1 (S R V S G P S ...) and C2 (S R G S P S T V S ...) showed that the peptides were localized on the head domain of NF-M at 25 and 41 residues from the amino terminus, respectively. Tryptic digest of peptide C1 (less than 12 kDa) generated the phosphopeptides M1-M6. Peptide C2 was a breakdown product of peptide C1. Since the polypeptide sites targeted by second messenger-independent kinase(s) associated with neurofilaments are localized on the carboxyl-terminal domain, separate aspects of NF-M function appear to be regulated by separate kinase systems that selectively phosphorylate head or tail domains of the polypeptide.
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PMID:Phosphorylation of the amino-terminal head domain of the middle molecular mass 145-kDa subunit of neurofilaments. Evidence for regulation by second messenger-dependent protein kinases. 210 60


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