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)

The protein kinase C activator, phorbol 12-myristate 13-acetate (PMA), has been found recently to transform cultured astrocytes from flat, polygonal cells into stellate-shaped, process-bearing cells. Studies were conducted to determine the effect of PMA on protein phosphorylation in astrocytes and to compare this pattern of phosphorylation with that elicited by dibutyryl cyclic AMP (dbcAMP), an activator of the cyclic AMP-dependent protein kinase which also affects astrocyte morphology. Exposure to PMA increased the amount of 32P incorporation into several phosphoproteins, including two cytosolic proteins with molecular weights of 30,000 (pI 5.5 and 5.7), an acidic 80,000 molecular weight protein (pI 4.5) present in both the cytosolic and membrane fractions, and two cytoskeletal proteins with molecular weights of 60,000 (pI 5.3) and 55,000 (pI 5.6), identified as vimentin and glial fibrillary acidic protein, respectively. Effects of PMA on protein phosphorylation were not observed in cells depleted of protein kinase C. In contrast to the effect observed with PMA, treatment with dbcAMP decreased the amount of 32P incorporation into the 80,000 protein. Like PMA, treatment with dbcAMP increased the 32P incorporation into the proteins with molecular weights of 60,000, 55,000 and 30,000, although the magnitude of this effect was different. The effect of dbcAMP on protein phosphorylation was still observed in cells depleted of protein kinase C. The results suggest that PMA, via the activation of protein kinase C, can alter the phosphorylation of a number of proteins in astrocytes, and some of these same phosphoproteins are also phosphorylated by the cyclic AMP-dependent mechanisms.
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PMID:Protein phosphorylation in astrocytes mediated by protein kinase C: comparison with phosphorylation by cyclic AMP-dependent protein kinase. 276 64

Evidence is shown that vimentin, the intermediate filament protein, is a substrate for protein kinase C: (a) Purified vimentin from Chinese hamster ovary cells can be phosphorylated by protein kinase C prepared from rabbit peritoneal neutrophils. Tryptic peptic analysis reveals multiple sites of phosphorylation distinct from those phosphorylated by cAMP-dependent protein kinase. (b) phosphorylation of membrane associated vimentin is stimulated in phorbol 12-myristate 13-acetate treated neutrophil membranes, suggesting that vimentin can be a substrate for membrane associated protein kinase C and (c) phorbol 12-myristate 13-acetate also stimulates the phosphorylation of vimentin in 32P-labeled intact neutrophils.
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PMID:Vimentin, a cytoskeletal substrate of protein kinase C. 282 88

The intermediate filament protein vimentin was phosphorylated with cAMP-dependent protein kinase under conditions that induce filament disassembly. Digestion of phosphorylated vimentin with lysine-specific endoprotease and subsequent tryptic peptide mapping indicated that a 12 kDa N-terminal fragment contained all the phosphorylation sites found in the intact molecule. Analysis of cyanogen bromide digests indicated that two phosphorylated peptides were produced, with the major 32P-labeled species representing amino acid position 14-72, and a minor 32P-labeled peptide representing amino acid positions 1-13. These results demonstrate that phosphorylation of sites within the N-terminal head domain of vimentin are associated with phosphorylation induced filament disassembly.
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PMID:Cyclic AMP-dependent protein kinase-induced vimentin filament disassembly involves modification of the N-terminal domain of intermediate filament subunits. 283 68

Addition of bombesin in the presence of either forskolin or cholera toxin caused a marked (4-6 fold) enhancement of cAMP accumulation in Swiss 3T3 cells. This effect was time and concentration dependent, induced by various bombesin-like peptides and blocked by a bombesin antagonist. Enhancement of cAMP accumulation by bombesin was diminished by chronic pretreatment with phorbol dibutyrate implicating the involvement of protein kinase C in the activation. Pretreatment with pertussis toxin, which uncouples protein kinase C activation from cAMP accumulation (Proc. Natl. Acad. Sci. U.S.A., 84:2282, 1987) also inhibited bombesin enhancement of cAMP. Bombesin was also shown to release E type prostaglandins into the medium, an effect which was abolished by the cyclooxygenase inhibitor indomethacin. Low concentrations (100 nM) of indomethacin partially inhibited the accumulation of cAMP by bombesin in the presence of forskolin indicating that the release of E type prostaglandins into the medium is also involved in the accumulation of cAMP by bombesin. The additive nature of PBt2-mediated down-regulation and treatment with indomethacin suggests that activation of protein kinase C and the release of E type prostaglandins provide two distinct pathways involved in the enhancement of cAMP accumulation by bombesin. Finally, bombesin in the presence of forskolin stimulated the phosphorylation of the intermediate filament component vimentin, identified in the accompanying paper as a substrate for a cAMP dependent protein kinase in intact Swiss 3T3 cells.
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PMID:Bombesin enhancement of cAMP accumulation in Swiss 3T3 cells: evidence of a dual mechanism of action. 284 40

Protein phosphorylation in intact S49 mouse lymphoma cells was studied by using high-resolution two-dimensional gel electrophoresis of proteins labelled with [35S]methionine or [32P]Pi. In wild-type cells substrates for cyclic AMP-stimulatable phosphorylation exhibited high basal phosphorylation; in mutant cells deficient in activities of either cyclic AMP-dependent protein kinase or adenylate cyclase, basal phosphorylation of most of these substrates was negligible. Analysis of tryptic phosphopeptides from proteins labelled with [32P]Pi in wild-type cells suggested that identical sites were phosphorylated under conditions of both basal and hormonally elevated concentrations of cyclic AMP. These results argue that most basal phosphorylation is a consequence of partial activation of cyclic AMP-dependent protein kinase and that this activation is attributable to basal concentrations of cyclic AMP. For the intermediate filament protein vimentin, basal phosphorylation was largely at a site distinct from that stimulated by increased cyclic AMP, and basal phosphorylation was not markedly different in mutant and wild-type cells. Vimentin phosphorylated at both sites was not observed. Cyclic AMP treatment resulted in enhanced phosphorylation at the cyclic AMP-specific site and decreased phosphorylation at the cyclic AMP-independent site.
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PMID:Basal phosphorylation of cyclic AMP-regulated phosphoproteins in intact S49 mouse lymphoma cells. 298 11

The response of cultured Sertoli cells to short term FSH stimulation was studied to elucidate early events involved in the hormone response of this cell type. The phosphorylation of proteins by [32P]orthophosphate-labeled cells was examined using two-dimensional polyacrylamide gel electrophoresis and autoradiography. FSH stimulation resulted in a variety of changes in the phosphoprotein labeling pattern. Within 5 min, unique phosphoproteins appeared in autoradiograms of treated cells. Increased labeling of vimentin was also noted. After 25 min of FSH stimulation, increases and decreases in apparent labeling intensity were evident in additional phosphoproteins that were constitutively labeled in control cultures. Changes in protein patterns in stained gels were also noted after acute hormone treatment. These observations demonstrate that Sertoli cells respond to hormonal stimulation in a detectable manner within 5 min. Cytoskeletal involvement in initial phases of hormone response is indicated. Mechanisms such as increased protein kinase activity, changes in protein kinase substrate affinity, increased protein turnover, or phosphatase activation may all contribute to the early events involved in Sertoli cell hormone response.
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PMID:Two-dimensional gel analysis of Sertoli cell protein phosphorylation: effect of short term exposure to follicle-stimulating hormone. 308 Mar 8

The in vitro phosphorylation of chicken desmin by the catalytic subunit of cAMP-dependent protein kinase was analysed. Phosphorylated desmin loses the ability to form intermediate filaments (IFs). Fragmentation at the sole cysteine and mild chymotryptic treatment show a differential phosphorylation of the three structural domains. Only the amino-terminal head domain is the target of the kinase. Peptide analysis shows that serine 29 is fully phosphorylated, while serine 35 and 50 are phosphorylated at least at 22 and 50% respectively. All three sites show the sequence arginine-X-serine with X being a small residue. These results strengthen the view that the nonhelical head domain has a strong influence on filament integrity most likely via a direct influence of some of its arginine residues. Taken together with previous results (Inagaki et al., 1987) on the phosphorylation of vimentin by kinase A, a new view on IFs emerges. Phosphorylation could allow for regulatory processes in assembly and turnover.
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PMID:Phosphorylation of desmin in vitro inhibits formation of intermediate filaments; identification of three kinase A sites in the aminoterminal head domain. 335 92

Neurofilament (NF) protein kinase, partially purified from NF preparations [Toru-Delbauffe & Pierre (1983) FEBS Lett. 162, 230-234], was found to be distinct from both the casein kinase present in NFs and the cyclic AMP-dependent protein kinase which is able to phosphorylate NFs. NF-kinase phosphorylated the three NF protein components. The amount of phosphate incorporated per molecule was higher for NF 200 than for NF 145 and NF 68. Other proteins present in the NF preparations were also used as NF-kinase substrates. Two of them might correspond to the myelin basic proteins with Mr values of 18,000 and 21,000. Four other substrates in the NF preparation were not identified (respective Mr values 53,000, 55,000, 65,000 and greater than 300,000). NF kinase also phosphorylated two additional brain-cell cytoskeletal elements: GFAp and vimentin. Casein, histones and phosvitin, currently used as substrates for protein kinase assays, were very poor phosphate acceptors. Half-maximal NF-kinase activity was obtained at an NF protein concentration of about 0.25 mg/ml in heated, salt-washed, NF preparations. The specific activity was about 5 pmol of 32P incorporated/min per microgram of NF kinase preparation protein. ATP was a phospho-group donor (Km 8 X 10(-5) M), but GTP was not. NF-kinase activity remained stable at 65 degrees C for more than 1 h. The enzyme was not degraded by storage at -20 degrees C for several months in a buffer containing 50% (w/v) sucrose. Maximal activity was obtained with 5 mM-Mg2+ (Mg2+ could be replaced by Co2+); Zn2+ and Cu2+ inhibited the reaction. NF-kinase was not dependent on cyclic AMP, cyclic GMP, Ca2+ or Ca2+ plus dioleoylglycerol and phosphatidylserine.
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PMID:Properties of neurofilament protein kinase. 346 81

In previous studies, we described a soluble Ca2+/calmodulin-dependent protein kinase which is the major Ca2+/calmodulin-dependent microtubule-associated protein 2 (MAP-2) kinase in rat brain [Schulman, H. (1984) J. Cell Biol. 99, 11-19; Kuret, J. A., & Schulman, H. (1984) Biochemistry 23, 5495-5504]. We now demonstrate that this protein kinase has broad substrate specificity. Consistent with a multifunctional role in cellular physiology, we show that in vitro the enzyme can phosphorylate numerous substrates of both neuronal and nonneuronal origin including vimentin, ribosomal protein S6, synapsin I, glycogen synthase, and myosin light chains. We have used MAP-2 to purify the enzyme from rat lung and show that the brain and lung kinases have nearly indistinguishable physical and biochemical properties. A Ca2+/calmodulin-dependent protein kinase was also detected in rat heart, rat spleen, and in the ring ganglia of the marine mollusk Aplysia californica. Partially purified MAP-2 kinase from each of these three sources displayed endogenous phosphorylation of a 54 000-dalton protein. Phosphopeptide analysis reveals a striking homology between this phosphoprotein and the 53 000-dalton autophosphorylated subunit of the major rat brain Ca2+/calmodulin-dependent protein kinase. The enzymes phosphorylated MAP-2, synapsin I, and vimentin at peptides that are identical with those phosphorylated by the rat brain kinase. This enzyme may be a multifunctional Ca2+/calmodulin-dependent protein kinase with a widespread distribution in nature which mediates some of the effects of Ca2+ on microtubules, intermediate filaments, and other cellular constituents in brain and other tissues.
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PMID:Ca2+/calmodulin-dependent microtubule-associated protein 2 kinase: broad substrate specificity and multifunctional potential in diverse tissues. 407 98

Analysis by means of two-dimensional gel electrophoresis (IEF) of [32P]orthophosphate-labeled proteins from mitotic and interphase transformed amnion cells (AMA) has shown that keratins IEF 31 (Mr = 50,000; Hela protein catalogue number), 36 (Mr = 48,500), 44 (Mr = 44,000), 46 (Mr = 43,500), as well as vimentin (IEF 26; Mr = 54,000) are phosphorylated above their interphase level during mitosis. Similar studies of normal human amnion epithelial cells (AF type) confirmed the above observations except in the case of keratin IEF 44 whose relative proportion was too low to be analyzed. Immunofluorescent staining of methanol/acetone-treated mitotic transformed amnion cells with a mouse polyclonal antibody elicited against human keratin IEF 31 showed a dotted staining (with a fibrillar background) in all of the cells in late anaphase/early telophase (characteristic "domino" pattern) and in a sizeable proportion of the cells in other stages of mitosis. Normal mitotic amnion cells on the other hand showed a fine fibrillar staining of keratins at all stages of mitosis. Similar immunofluorescent staining of normal and transformed mitotic cells with vimentin antibodies revealed a fibrillar distribution of vimentin in both cell types. Taken together the results indicate that the transformed amnion cells may contain a factor(s) that modulates the organization of keratin filaments during mitosis. This putative factor(s), however, is most likely not a protein kinase as transformed amnion cells and amnion keratins are modified to similar extents. It is suggested that in general the preferential phosphorylation of intermediate-sized filament proteins during mitosis may play a role in modulating the various proposed associations of these filaments with organelles and other cellular structures.
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PMID:Phosphorylation of keratin and vimentin polypeptides in normal and transformed mitotic human epithelial amnion cells: behavior of keratin and vimentin filaments during mitosis. 619 64


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