Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.11.13 (protein kinase C)
 49,245 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have examined the effects of staurosporine, a potent inhibitor of protein kinase C, on cartilage differentiation in cultured mesenchyme of embryonic facial primordia. Mesenchymal cells from the frontonasal, maxillary, and mandibular processes and hyoid arches of stage 24/25 chicken embryos were maintained in high density micromass cell cultures in the presence or absence of 5 nM staurosporine. In cultures of frontonasal and mandibular process mesenchyme, which spontaneously developed numerous chondrogenic cell aggregates, staurosporine treatment enhanced Alcian blue-positive matrix accumulation, increased pericellular sulfated glycosaminoglycan (GAG) deposition by 5.8- and 2.7-fold, respectively, and elevated cytoplasmic levels of cartilage-specific proteoglycan mRNA. In maxillary process mesenchyme, which formed little cartilage matrix under control culture conditions, staurosporine treatment stimulated extensive cartilage nodule formation, promoted a 5.4-fold rise in matrix GAG accumulation, and increased expression of both type II collagen and cartilage proteoglycan mRNA. Moreover, staurosporine treatment initiated chondrocyte differentiation and induced the expression of type II collagen and cartilage proteoglycan gene transcripts in hyoid arch mesenchyme, which exhibited no spontaneous chondrogenesis in control cultures. The results demonstrate that staurosporine promotes cartilage formation in embryonic facial mesenchyme, and suggest the possibility that protein kinase C might function as an inhibitory modulator of chondrocyte differentiation in the neural crest-derived progenitor cells of the embryonic facial skeleton.
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PMID:Staurosporine, a protein kinase inhibitor, stimulates cartilage differentiation by embryonic facial mesenchyme. 161 78

Interleukin-1 (IL-1) stimulates proteoglycan degradation and prostaglandin E2 (PGE2) release and inhibits proteoglycan synthesis by cartilage in organ culture. Addition of the protein kinase C (PKC) activator, mezerein, resulted in the concentration-dependent inhibition of IL-1 activity on proteoglycan metabolism. Similar effects were seen with other compounds which stimulated PKC, such as teleocidin B4 and phorbol dibutyrate (PDBu), but not with a phorbol analog that is inactive in stimulating PKC. Simultaneous addition of the PKC antagonist, staurosporine, blocked the mezerein-induced inhibition of IL-1 activity on both proteoglycan degradation and synthesis in a concentration-related manner. In contrast to its inhibition of the effect of IL-1 on proteoglycan metabolism, mezerein did not block the release of PGE2 by cartilage in response to IL-1 but caused a synergistic stimulation of PGE2 release. Importantly, in cultures made deficient in PKC by prolonged incubation with PDBu, the effects of this PKC agonist on proteoglycan breakdown and PGE2 were blocked, while stimulation by IL-1 persisted. These data indicate that the effects of IL-1 on proteoglycan metabolism and prostaglandin production are mediated by an intracellular signal distinct from PKC and suggest that activation of PKC in chondrocytes may play a role in modulating the action of IL-1 on proteoglycan metabolism.
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PMID:Modulation of interleukin-1-induced alterations in cartilage proteoglycan metabolism by activation of protein kinase C. 185 77

Phorbol 12-myristate 13-acetate (PMA), a protein kinase C-activating phorbol ester, is known to inhibit chondrogenic differentiation by embryonic limb mesenchyme cells in vitro. The present study demonstrates that staurosporine, a potent inhibitor of protein kinase C, conversely stimulates cartilage differentiation in cultures of limb mesenchyme cells isolated from whole wing buds of stage 23/24 chick embryos or from the distal subridge region of stage 25 wing buds. In high density micromass cultures, in which limb mesenchyme cells undergo extensive spontaneous cartilage differentiation, exposure to 5-20 nM staurosporine promotes an accelerated accumulation of type II collagen and cartilage proteoglycan mRNA transcripts and a 2- to 3-fold increase in matrix glycosaminoglycan deposition. Even in low density, monolayer cultures in which the mesenchymal cells do not normally form cartilage, treatment with 5 nM staurosporine induces extensive Alcian blue-positive matrix production, a striking 4- to 18-fold rise in sulfated glycosaminoglycan accumulation, and a dramatic elevation of cartilage-characteristic gene transcript expression. Moreover, concurrent treatment with staurosporine overcomes the inhibitory effects of PMA on in vitro limb cartilage differentiation. The results suggest the hypothesis that protein kinase C might function as a negative modulator of chondrogenic differentiation during embryonic limb development.
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PMID:Promotion of embryonic limb cartilage differentiation in vitro by staurosporine, a protein kinase C inhibitor. 206 Jul 9

H2O2, in addition to producing highly reactive molecules through hydroxyl radicals or peroxidase action, can exert a number of direct effects on cells, organelles and enzymes. The stimulations include glucose transport, glucose incorporation into glycogen, HMP shunt pathway, lipid synthesis, release of calcium from mitochondria and of arachidonate from phospholipids, poly ADP ribosylation, and insulin receptor tyrosine kinase and pyruvate dehydrogenase activities. The inactivations include glycolysis, lipolysis, reacylation of lysophospholipids, ATP synthesis, superoxide dismutase and protein kinase C. Damages to DNA and proteoglycan and general cytotoxicity possibly through oxygen radicals were also observed. A whole new range of effects will be opened by the finding that H2O2 can act as a signal transducer in oxidative stress by oxidizing a dithiol protein to disulphide form which then activates transcription of the stress inducible genes. Many of these direct effects seem to be obtained by dithiol-disulphide modification of proteins and their active sites, as part of adaptive responses in oxidative stress.
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PMID:H2O2 has a role in cellular regulation. 207 30

In the growth plate chondrocyte, parathyroid hormone (PTH) stimulates phosphoinositol 4,5 bisphosphate (PIP2) degradation, which results in the rapid production of inositol (1,4,5) triphosphate (IP3). IP3 induced the release of calcium from an intracellular store, which caused a rapid increase in the cytosolic ionized calcium concentration. Parathyroid hormone also induced a 30-50% increase in proteoglycan synthesis. Phorbol esters, which pharmacologically activate protein kinase C, resulted in a 70-80% increase in proteoglycan synthesis. Treatment of the chondrocytes with retinoic acid (0.2 microM) inhibited the parathyroid hormone and phorbol ester-induced increase in intracellular ionized calcium and the increase in proteoglycan synthesis. From this data we postulate that the stimulation of proteoglycan synthesis in growth plate chondrocytes by PTH is mediated by the breakdown of membrane phosphoinositides, which results in the production of IP3 and an increase in ionized intracellular calcium. It is suggested that the degradation of membrane phosphoinositides also results in production of diacylglycerol and, thereby, an activation of protein kinase C, which has a large stimulatory effect on proteoglycan synthesis. The increase in cytosolic calcium most likely acts synergetically with diacylglycerol to activate protein kinase C. Retinoic acid blocks the effect of PTH and phorbol ester-induced proteoglycan synthesis and may act through the inhibition of protein kinase C. The overall effect of PTH on the growth plate chondrocyte appears to be a stimulation of proteoglycan synthesis that is mediated by the degradation products of membrane phosphoinositides.
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PMID:Mechanism of action of parathyroid hormone-induced proteoglycan synthesis in the growth plate chondrocyte. 215 1

Tumor-producing phorbol esters [e.g., 12-O-tetradecanoylphorbol-13-acetate (TPA)] induce changes in a human colon cancer cell line, VACO 10MS, that mimic terminal differentiation: a rapid blockade of DNA replication and cell division, a marked increase in cell adhesion properties with striking changes in morphology, and the acquisition of ion-transporting activities. The present report shows that the triggering of this terminal differentiation sequence by TPA is associated with a rapid release of heparan sulfate proteoglycans from the cell surface that is soon followed by an acceleration of proteoglycan synthesis. The activation of the release mechanism is independent of ongoing protein synthesis, whereas the resynthesis of the proteoglycans requires the production of new proteins. A persistent high rate of proteoglycan synthesis and release appears correlated with the progression of the colon cell into the terminal differentiation state. Bryostatin 1, an agent which has been shown previously to block the TPA-induced terminal differentiation of this cell line, also largely prevents the TPA effects on proteoglycan metabolism. Since both TPA and bryostatin 1 produce their effects through the activation of members of the protein kinase C class of enzymes, it is proposed that the differentiation state of these colon cancer cells may be regulated by a differential activation of isozymes or a ligand-directed phosphorylation of proteins that are involved in proteoglycan metabolism.
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PMID:Phorbol esters activate proteoglycan metabolism in human colon cancer cells en route to terminal differentiation. 227 82

Ca2+ is a major regulator of exocytosis in secretory cells, however, the biochemical mechanisms underlying regulation remain to be identified. To render the secretory apparatus accessible for biochemical studies, we have developed a cell permeabilization method (cell cracking) which utilizes mechanical shear. GH3 pituitary cells subjected to cracking were permeable to macromolecules but retained a normal cytoplasmic ultrastructure including secretory granules. Incubation of the permeable cells at 30-37 degrees C with 0.1-1.0 microM Ca2+ and millimolar MgATP resulted in the release of the secretory proteins, prolactin (PRL) and a proteoglycan, but not lysosomal enzymes. Extensively washed permeable cells were incapable of releasing PRL in response to Ca2+ and MgATP addition. However, addition of cytosol was found to restore Ca2+-activated, MgATP-dependent PRL release. The cytosolic factor responsible for activity was thermolabile and protease sensitive. The protein was partially purified, and its molecular mass was estimated to be equivalent to that of a globular protein of 200-350 kDa by molecular sieve chromatography. Inhibitors of calmodulin or protein kinase C (trifluroperazine, calmidazolium, H-7) failed to inhibit Ca2+-activated PRL release, and the required cytosolic protein could not be replaced by purified calmodulin, calmodulin-dependent protein kinase II, protein kinase C, or calpactin I. Further purification and characterization of the cytosolic protein should reveal the nature of biochemical events involved in regulated secretory exocytosis.
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PMID:A new method for cell permeabilization reveals a cytosolic protein requirement for Ca2+ -activated secretion in GH3 pituitary cells. 272 69

Proteoglycan biosynthesis was studied in human monocytes and monocyte-derived macrophages (MDM) after exposure to typical activators of the monocyte/macrophage system: interferon-gamma (IFN-gamma), lipopolysaccharide (LPS), and phorbol 12-myristate 13-acetate (PMA). By morphological examination, both monocytes and MDM were stimulated by these activators. Treatment with IFN-gamma resulted in a slight decrease in the expression of [35S]chondroitin sulfate proteoglycan (CSPG) in both monocytes and MDM, whereas LPS treatment increased the [35S]CSPG expression 1.8 and 2.2 times, respectively. PMA, in contrast, decreased the CSPG expression 0.4 times in monocytes, whereas MDM were stimulated to increase the biosynthesis 1.9 times. An increase in the sulfate density of the chondroitin sulfate chains was evident following differentiation of monocytes into MDM due to the expression of disulfated disaccharide units of the chondroitin sulfate E type (CS-E). However, monocytes exposed to PMA did also express disaccharides of the chondroitin sulfate E type. Furthermore, the expression of CS-E in MDM was increased 2 times following PMA treatment. An inactive phorbol ester, phorbol 12,13-diacetate, did not affect the expression of CS-E in either monocytes or MDM when compared with control cultures, suggesting that protein kinase C-dependent signal pathways may be involved in the regulation of sulfation of CSPG. Exposure to LPS or IFN-gamma did not lead to any changes in the sulfation of the chondroitin sulfate chains.
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PMID:Modulation of the expression of chondroitin sulfate proteoglycan in stimulated human monocytes. 276 47

Prolactin (PRL) release in permeable GH3 pituitary cells was stimulated by the protein kinase C activators 12-O-tetradecanoylphorbol 13-acetate (TPA) and 1-oleoyl-2-acetyl-sn-glycerol (OAG). Both agents stimulated secretion at 10 nM Ca2+, but higher [Ca2+] (greater than 0.1 microM) potentiated TPA and OAG action. Maximal potentiation occurred at 1 microM calculated free Ca2+, and a similar value was obtained when the cytoplasmic [Ca2+] was measured with the Ca2+-sensitive dye Quin 2. Release of a secretory sulfated proteoglycan was also stimulated by TPA and OAG in permeable GH3 cells, with characteristics similar to those for PRL release. Trifluoroperazine, polymyxin B, neomycin, and 8-(diethylamino)octyl-3,4,5-trimethoxybenzoate all inhibited both TPA- and Ca2+-stimulated PRL release, but in each case the half-maximal inhibitory concentrations were approximately 2-fold higher for TPA-stimulated release compared to Ca2+-stimulated release. Thyrotropin-releasing hormone (TRH) and guanosine 5'-Q-thiotriphosphate, which stimulate polyphosphoinositide breakdown in permeable cells, were found to be only weak stimulators of PRL release, compared to TPA and exogenous diacylglycerol. However, a much stronger effect of TRH was seen if cells were briefly treated with TRH prior to permeabilization. PRL release from TRH-pretreated permeable cells resembled TPA- and OAG-stimulated secretion, with [Ca2+] greater than 0.1 microM potentiating the effect of TRH pretreatment. These studies support the hypothesis that PRL release in GH3 cells can be stimulated directly by a diacylglycerol-activated secretory mechanism whose activity is modulated by [Ca2+].
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PMID:Characterization of phorbol ester- and diacylglycerol-stimulated secretion in permeable GH3 pituitary cells. Interaction with Ca2+. 301 2

Bovine chondrocyte cultures were established in agarose and in monolayers to compare the effects of cytokines and drugs on matrix metabolism. The production of sulfated glycosaminoglycans (S-GAG) from the medium and cell surface compartments were measured by a dimethylmethylene blue assay. In the agarose cultures most of the proteoglycan remained in the agar, but was continuously released into the medium for more than 50 days. In the monolayers, the cell surface compartment became saturated with S-GAG in 5-6 days. Then a time-dependent decrease of accumulation occurred in the medium after 8-10 days. The anabolic effects of insulin-like growth factor (IGF) and a protein kinase C activator (PMA) were measured in these cultures. IGF and PMA increased S-GAG accumulation in the medium from monolayers but not from agarose cultures. In the agarose cultures, S-GAG was released into the medium after these cultures were changed to serum-free test conditions. This release overshadowed any increase in S-GAG synthesis. The catabolic effect of IL-1 was more evident in the monolayers than in the agarose cultures. Agarose cultures maintain the chondrocyte phenotype longer than monolayers but for initial drug studies monolayer cultures appear to be more appropriate.
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PMID:A comparison of chondrocyte proteoglycan metabolism in monolayer and agarose cultures. 750 2


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