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)

Human chorionic cells in culture synthesized and secreted a large amount of hyaluronate as well as tissue collagenase. When these cells were treated with human recombinant interleukin 1 alpha (hrIL-1), the biosynthesis and secretion of hyaluronate were predominantly accelerated, but those of sulfated glycosaminoglycans were not modulated. This promotive effect of hrIL-1 was not due to the increase in endogenous prostaglandins including prostaglandin E2 since cyclooxygenase inhibitors, indomethacin and diclofenac did not modulate the IL-1-mediated production of hyaluronate. On the other hand, the cotreatment of chorionic cells with hrIL-1 and cycloheximide suppressed the IL-1-mediated hyaluronate production, suggesting that protein, de novo, synthesis required for the enhancement of hyaluronate synthesis. Upon treatment with hrIL-1, the membrane bound-hyaluronate synthase activity was increased up to 5-fold in a time-dependent manner. On the other hand, when chorionic cells were treated with hrIL-1 and/or protein kinase C inhibitor, 1-(5-isoquinolinesulfonyl)-2-methyl-pyperadine hydrochloride (H7), the IL-1-mediated production of hyaluronate was effectively suppressed. Similarly, H7 effectively suppressed the protein kinase activator, 12-O-tetradecanoyl-phorbol-13-acetate-enhanced production of glycosaminoglycans with a similar extent. These results indicate that IL-1-induced acceleration of hyaluronate production was reflected on the increase in hyaluronate synthase activity, and that protein kinase C participates positively in the IL-1-signal transduction for the increased synthesis of hyaluronate in human chorionic cells.
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PMID:Regulation of hyaluronate production by interleukin 1 in cultured human chorionic cells. 835 36

Calcium tolerant rabbit cardiomyocytes, isolated by collagenase perfusion, were preincubated for varying periods of time followed by resuspension in fresh media and centrifugation into an ischaemic pellet with restricted extracellular fluid. Pellets were incubated for 240 min under oil at 37 degrees C to mimic severe ischaemia. Time to onset of ischaemic contracture (rod to square transformation) and trypan blue permeability following resuspension in 85 mOSM media were monitored at sequential times. The protocol of Series 1 was a 5-10 min pre-incubation, immediately followed by ischaemic pelleting. Preincubation with pinacidil (50 microM) protected cells from ischaemic insult, but pinacidil added only into the ischaemic pellet did not protect. Protection was abolished by the protein kinase (PKC) inhibitors chelerythrine (10 microM) added with pinacidil and calphostin C (200nM) added only into the ischaemic pellet. Neither PKC inhibitor had an effect on injury of untreated ischaemic myocytes (data not shown). Series 2-5 were preconditioning protocols with a 10 min intervention period, followed by a 30 min oxygenated drug-free period, prior to ischaemic pelleting. In series 2 pinacidil protected cells from ischaemic insult and this protection was abolished when glyburide (10 microM) was present during preincubation, or during post-incubation and ischaemia. Glyburide only partially inhibited the protection when glyburide was added only into the ischaemic pellet. In Series 3, 8-sulfophenyltheophyline (SPT)(100 microM) or adenosine deaminase during preincubation, or SPT only added into the ischaemic pellet abolished pinacidil's protection. In Series 4, cardiomyocytes were ischaemically preconditioned by pelleting for 10 min followed by 30 min reoxygenation. Glyburide during initial ischaemic blocked protection, but when added during post incubation and into the final pellet protection was not reduced. In Series 5 8-cyclopentyl-1,3,dipropylxanthine (DPCPX) (10 microM) added into the final pellet abolished protection by pinacidil, but not protection following ischaemic preconditioning. In contrast to pinacidil, ischaemically preconditioned cells maintain protection in the presence of glyburide, indicating that: (1) pinacidil does not exactly mimic preconditioning and (2) ischaemically preconditioned cells do not require opened K+ATP channels for protection, although they appear to be important during initiation of the preconditioned state. It is hypothesized that pinacidil opening of K+ channels may facilitate induction of preconditioning.
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PMID:Potassium channels and preconditioning of isolated rabbit cardiomyocytes: effects of glyburide and pinacidil. 852 37

Bone remodeling requires regulated tyrosine phosphorylation mediated by specific protein tyrosine kinases, such as c-src and c-fms, and to date, unknown protein tyrosine phosphatases (PTPs). We previously reported the isolation of a novel bone-specific receptor PTP, named osteotesticular PTP (OST-PTP), which is regulated during osteoblast differentiation and after exposure to PTH. To determine the relevance of this PTH regulation, we characterized the PTH-induced increase in OST-PTP messenger RNA (mRNA) in UMR 106 cells in comparison with PTH effects on a related receptor PTP and a PTH regulated gene, rat collagenase. Treatment of cells with rat PTH 1-34 (rPTH) resulted in a dramatic concentration and time-dependent increase in OST-PTP mRNA with a threshold at 4 h (= or < 1nM rPTH) and maximal response of 6- 10-fold above control levels at 8 h (100 nM rPTH). An increase in collagenase mRNA was detectable 2 h earlier at 100 pM rPTH with a maximal response at least 5-fold greater than that observed for OST- PTP. Levels of mRNA for the structurally similar PTP, rat leucocyte antigen-related molecule, were unaffected by rPTH treatment. Administration of cycloheximide (5-100 microM) abolished the OST-PTP and collagenase responses to PTH. The cAMP analogs, CPT-cAMP (0.01-1mM; 8 h) or Sp-cAMP (0.1 and 0.5 mM) were equal or greater in their effectiveness to enhance both OST-PTP and collagenase mRNA as compared with rPTH. In contrast, phorbol esters, calcium ionophore, bovine PTH (3-34), or human PTHrP (7-34) had no effect on either transcript. Interestingly, 36 h of pretreatment of cells with epidermal growth factor (10 ng/ml), a growth factor known to modulate PTH's actions, resulted in a significant decrease in the abundance of OST-PTP mRNA after rPTH exposure. These studies suggest that regulation of OST-PTP mRNA is a secondary response to PTH stimulation that is dependent on protein synthesis and that may be primarily by activation of the protein kinase A pathway. This specific modulation of a bone receptor PTP may prove to be a critical component in the PTH modulation of osteoblast function.
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PMID:Parathyroid hormone regulates the expression of the receptor protein tyrosine phosphatase, OST-PTP, in rat osteoblast-like cells. 860 5

The interaction of Entamoeba histolytica trophozoites with collagen involves cell adherence, formation, and release of electron dense granules (EDGs) containing collagenase activity leading to the degradation of the bound protein. The binding is thought to be mediated by an "integrin-like" collagen receptor. Since the signal transduction mechanisms triggered by the collagen-trophozoite interaction are unknown, but clearly involve cytoskeletal organization, we decided to explore the role of protein tyrosine phosphorylation in this process. Collagen induces a time-dependent increase in the phosphorylation of several polypeptides migrating around 67 and 110 kDa. One polypeptide of the high-molecular-weight component was identified as a 125-kDa protein with very similar epitopes to the focal treatment was a 42-kDa polypeptide related to the mitogen activated protein kinase (MAPK) family. Our results suggest that tyrosine phosphorylation is involved in collagen signaling in amoebas and that pp125FAK and p42MAPK homologs may play an active role in turning on the genetic program that enables the parasite to invade its host.
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PMID:Entamoeba histolytica: involvement of pp125FAK in collagen-induced signal transduction. 861 43

Ultraviolet light (UV) and different DNA-damaging agents are known to induce AP-l-transcription-factor activity. Whereas UV induction appears to be triggered by events at the cell membrane, the mechanism of AP-l activation by alkylating or platinating agents is not known. We have here examined the effect of cisplatin on AP-l activity in RPMI-8322 melanoma cells. Cisplatin was found to induce binding of nuclear proteins to TRE elements from the c-jun and collagenase-gene promoters, and was also found to induce activation of a c-jun-promoter reporter construct. Compared with stimulation by UV, cisplatin stimulation of c-jun-promoter activity was found to be less sensitive to a dominant negative mutant of Raf-I protein kinase. Furthermore, whereas UV treatment resulted in strong MAP-kinase activation, cisplatin treatment resulted only in a weak and transient increase. These data suggest that the Raf-MAPK pathway is of minor importance for the induction of c-jun-promoter activity by cisplatin. Finally, we report that cisplatin induction of c-jun in RPMI-8322 cells was blocked by herbimycin A, an inhibitor of Src-family tyrosine kinases. In contrast, UV induction of c-jun was not blocked by herbimycin A. In conclusion, our data strongly suggest that UV and cisplatin induction of c-jun mRNA in RPMI-8322 melanoma cells occur by distinct mechanisms.
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PMID:Different mechanisms are responsible for c-jun mRNA induction by cisplatin and ultraviolet light. 863 98

Cyclic adenosine monophosphate (cAMP)-dependent protein kinase A (PKA) regulates the activity of growth-factor-induced pathways at the level of cytoplasmic kinases and nuclear transcription factors. We observed that H-89, an inhibitor of PKA, induced mitogen-activated protein (MAP) kinase activity in a 12V-ras-transformed fibroblast cell line. In contrast, H-89 inhibited phorbol-ester-mediated induction of MAP kinase, junB messenger ribonucleic acid (mRNA), and collagenase mRNA in these cells. Phorbol-ester stimulation of a collagenase-promoter reporter construct was also inhibited by H-89. However, stimulation of the collagenase promoter was not inhibited by overexpression of the PKA-inhibitory protein PKI. These data suggest that H-89 inhibits the activity of an enzyme required for phorbol-ester induction of collagenase mRNA, but that this inhibition does not occur at the level of PKA.
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PMID:H-89 inhibits collagenase induction by phorbol ester through a mechanism that does not involve protein kinase A. 873 3

We studied the effects of parathyroid hormone (PTH) on PTH parathyroid hormone related peptide (PTHrP) receptor mRNA level, PTHrP binding and PTH-stimulated cyclic adenosine monophosphate (cAMP) accumulation in osteoblasts, derived from fetal rat calvariae (ROB). Cells isolated during 10-70 minutes of collagenase treatment were seeded at a density of 25,000 cells/cm2 and cultured for 4 days. These cells show a fast increase in cAMP production after stimulation for 5 minutes with 20 nM bovine parathyroid hormone(1-34) (bPTH(1-34)). When ROB are incubated with bPTH(1-34) (0.04-40nM) for 24 h, a dose-dependent decrease of the PTH/PTHrP receptor mRNA level, PTHrP binding, and PTH-stimulated cAMP accumulation can be observed. Pretreatment of ROB with a high concentration of bPTH(1-34) (40 nM) leads within 15 minutes to a decrease in PTH-stimulated cAMP accumulation. However, it takes > or = 3 h before a significant decrease in PTH/PTHrP receptor mRNA level can be observed. Also a significant decrease in PTHrP binding is observed after only 4 h of incubation with bPTH(1-34). Compared with bPTH(1-34), pretreatment of ROB with bPTH(3-34) (40 and 100 nM) for 24 h causes smaller decreases in PTH-stimulated cAMP accumulation, PTHrP binding, and in the PTH/PTHrP receptor mRNA level. We investigated the possible involvement of the protein kinase A signaling pathway in the regulation of the PTH/PTHrP receptor mRNA expression. Both forskolin and (Bu)2cAMP decreased PTHrP binding and PTH/PTHrP mRNA levels. These observations suggest that chronic activation of the PKA signaling pathway may down-regulate PTH/PTHrP receptor expression and thus hormone responsiveness in "normal" osteoblasts. In short, we found that the decrease of the PTH-stimulated cAMP accumulation after long-term pretreatment with bPTH(1-34) is correlated with both PTH/PTHrP receptor mRNA level and PTHrP binding. These data also suggest that the initial desensitization (< 30 minutes) of PTH-stimulated cAMP responsiveness by pretreatment with a high concentration of bPTH(1-34) (40 nM) is not dependent on the number of available PTH/PTHrP receptors. The protein kinase A signaling pathway is involved in the regulation of the PTH/PTHrP receptor, but, regarding the effect of bPTH(3-34), other signaling systems are also involved.
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PMID:Down-regulation of the receptor for parathyroid hormone (PTH) and PTH-related peptide by PTH in primary fetal rat osteoblasts. 886 95

To determine whether G proteins are involved in the regulation of mouse placental lactogen-I (mPL-I) and/or mPL-II secretion before midpregnancy, mouse placental tissue from day 7 of pregnancy was dispersed with collagenase, cells were fractionated on a percoll gradient, and the purified trophoblast cells were cultured in a serum-free medium with cholera toxin (CTX) or pertussis toxin (PTX) which modulate the activities of distinct G proteins for 5 days. CTX inhibited both mPL-I and mPL-II secretion, but PTX inhibited mPL-I secretion and stimulated mPL-II secretion in a time- and dose-dependent manner. Addition of both CTX and PTX additionally inhibited mPL-I secretion but did not affect mPL-II secretion. 8-Bromo cAMP, which increases intracellular cAMP accumulation, inhibited both mPL-I and mPL-II secretion similarly to CTX. In contrast, H8, an inhibitor of cAMP-dependent protein kinase A, stimulated both mPL-I and mPL-II secretion. Addition of PTX and H8 synergistically stimulated mPL-II secretion. These findings suggest that G proteins play important roles in regulation of mPL-I and mPL-II secretion before midpregnancy.
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PMID:Regulation of mouse placental lactogen secretion by G proteins before midpregnancy. 890 70

Exocytosis of the secondary (2 degree) lysosomal granule is an important process in the activation of human neutrophils. Stored enzymes such as collagenase and gelatinase are released, and adhesion molecules from the granule membrane are inserted in the plasma membrane. This exocytosis is independent of azurophil granule release and respiratory burst activation. We investigated, using kinase and phosphatase inhibitors and activators of adenylate cyclase, common intracellular signalling mechanisms involved in exocytosis (vitamin B12 binding protein release) stimulated by different agonists. Exocytosis in response to tumour necrosis factor alpha (TNF alpha), phorbol myristate acetate (PMA) and the chemotactic tripeptide N-formyl-methionyl-leucyl-phenylalanine (FMLP) was inhibited by the calmodulin antagonist N-(6-amino hexyl)-5-chloro-1-naphthalene sulphonamide (W7). Neither staurosporine, H7 nor genistein was inhibitory. In contrast, the same doses of W7 synergistically enhanced the exocytosis stimulated by the tyrosine phosphatase inhibitor sodium orthovanadate, while kinase inhibition by staurosporine or genistein dose-dependently inhibited the vanadate response. Furthermore, adenylate cyclase activation with prostaglandin E2 or dibutyryl cyclic AMP, inhibited exocytosis in response to TNF alpha and FMLP, while having no effect on the release induced by vanadate or PMA. Thus, 2 degree granule exocytosis stimulated by receptor-bound ligands is calmodulin-dependent, and is independent of protein kinase activity. In contrast, exocytosis in response to tyrosine phosphatase inhibition is antagonised by calmodulin, since the response to vanadate was enhanced synergistically by W7. Thus, depending on the initial stimulus, calmodulin may promote or inhibit 2 degree granule exocytosis by human PMN.
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PMID:Human neutrophil secondary granule exocytosis is independent of protein kinase activation and is modified by calmodulin activity. 892 8

The distribution and biochemical features of the synapsin-like peptides recognized in Aplysia and Helix by various antibodies directed against mammalian synapsins were studied. The peptides can be extracted at low pH and are digested by collagenase; further, they can be phosphorylated by both protein kinase A and Ca2+/calmodulin-dependent protein kinase II. In the ganglia of both snails, they are associated with the soma of most neurons and with the neuropil; punctate immunostaining is present along the neurites. Using cocultures of a Helix serotoninergic neuron and of its target cell, we analysed the redistribution of the synapsin-like peptides during the formation of active synaptic contacts. When the presynaptic neuron is plated in isolation, both synapsin and serotonin immunoreactivities are restricted to the distal axonal segments and to the growth cones; in the presence of the target, the formation of a chemical connection is accompanied by redistribution of the synapsin and serotonin immunoreactivities that concentrate in highly fluorescent round spots scattered along the newly grown neurites located close to the target cell. Almost every spot that is stained for serotonin is also positive for synapsin. In the presynaptic cell plated alone, the number of these varicosity-like structures is substantially stable throughout the whole period; by contrast, when the presynaptic cell synapses the target, their number increases progressively parallel to the increase in the mean amplitude of cumulative excitatory postsynaptic potentials recorded at the same times. The data indicate that mollusc synapsin-like peptides to some extent resemble their mammalian homologues, although they are not exclusively localized in nerve terminals and their expression strongly correlates with the formation of active synaptic contacts.
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PMID:Synapsin-like molecules in Aplysia punctata and Helix pomatia: identification and distribution in the nervous system and during the formation of synaptic contacts in vitro. 899 2


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