EC:2.7.11.1 - FACTA Search

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 phosphatase inhibitor okadaic acid suppressed autophagy completely in isolated rat hepatocytes, as measured by the sequestration of electroinjected [3H]raffinose into sedimentable autophagic vacuoles. Okadaic acid was effectively antagonized by the general protein kinase inhibitors K-252a and KT-5926, the calmodulin antagonist W-7, and by KN-62, a specific inhibitor of Ca2+/calmodulin-dependent protein kinase II (CaMK-II). These inhibitors also antagonized a cytoskeleton-disruptive effect of okadaic acid, manifested as the disintegration of cell corpses after breakage of the plasma membrane. CaMK-II, or a closely related enzyme, would thus seem to play a role in the control of autophagy as well as in the control of cytoskeletal organization.
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PMID:Protein kinase-dependent effects of okadaic acid on hepatocytic autophagy and cytoskeletal integrity. 132 Mar 71

We determined the relationship between the activation state and phosphorylation state of the Na-K-Cl cotransport protein in tubules isolated from the shark rectal gland, a prototypic chloride-secreting epithelium. In response to cAMP-dependent secretagogues (e.g. vasoactive intestinal peptide, adenosine, and forskolin) or osmotically induced changes in cell volume, the activation state of the cotransport protein (assessed from measurements of loop diuretic binding) increased 5-10 fold. The response was temporally associated with a comparable increase (3-9 fold) in cotransport protein phosphorylation. Graded changes in cotransporter activation evoked proportional changes in cotransporter phosphorylation. Under the conditions of our experiments, the 195-kDa cotransporter was the only membrane protein whose phosphorylation state increased conspicuously in response to both cAMP and cell shrinkage. Both stimuli promoted phosphorylation of the cotransport protein at serine and threonine residues. One of the cAMP-sensitive phosphoacceptors was found within a segment of the cotransport protein comprised of a sequence (Phe-Gly-His-Asn-Thr*-Ile-Asp-Ala-Val-Pro) that corresponds to a segment of the Na-K-Cl cotransport protein predicted by cDNA analysis, where the phosphoacceptor (Thr*) is threonine 189. Incubation of rectal gland tubules with K-252a or H-8, structurally different protein kinase inhibitors, rendered the cotransporter insensitive to both cAMP and cell shrinkage. We conclude that the rectal gland Na-K-Cl cotransport protein is regulated by direct reversible phosphorylation at serine and threonine sites.
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PMID:The Na-K-Cl cotransport protein of shark rectal gland. II. Regulation by direct phosphorylation. 133 94

Rapid changes in morphology of PC12D cells, a subline of PC12 cells, in response to various agents were studied in relation to the subsequent outgrowth of neurites. A few minutes after addition of NGF or of dbcAMP, staining of F-actin with rhodamine phalloidin revealed the formation of ruffles around the periphery of cells. Simultaneous relocalization of F-actin to the area of ruffles occurred in response to NGF. A moderate relocalization of F-actin occurred in dbcAMP-treated cells. Other neurite-promoting agents on PC12D cells, such as bFGF, EGF and PMA, also caused ruffling and an identical redistribution of F-actin. The actin bundles then condensed into several dot-like aggregates that subsequently became the growth cones of neurites. When an inhibitor of protein kinase, K-252a, was added, only the NGF-induced morphological change was selectively decreased. By contrast, an inhibitor of protein kinase A, H-89, selectively blocked the dbcAMP-induced change. These are analogous to the effects of those inhibitors on the outgrowth of neurites. These observations indicate that the formation of ruffles with the redistribution of F-actin might be one of the earliest steps in the neurite outgrowth and that the morphological changes might be triggered by the activation of specific protein kinases. Neither cytochalasin B nor colchicine prevented the series of morphological changes. However, processes formed in the presence of cytochalasin B had no filopodium and protrusions formed in the presence of colchicine were shaped like large filopodia. It appears that microtubules and microfilaments may not be absolutely required for the initiation of the rapid morphological changes, but that complete neurites might be formed with contribution by microtubules and by microfilaments.
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PMID:Requirement for specific protein kinase activities during the rapid redistribution of F-actin that precedes the outgrowth of neurites in PC12D cells. 133 3

The influences of protein kinase inhibitors, K-252a and staurosporine, on the neurotrophic effects of epidermal growth factor (EGF) were investigated in dissociated cell cultures of the hippocampus and cerebellum of fetal rats. Addition of 1 ng/ml EGF enhanced the survival of cultured neurons of both brain regions. Both K-252a (10-200 nM) and staurosporine (1-100 nM) blocked the survival-promoting effects of EGF in a concentration-dependent manner. These results suggest that activation of protein kinase(s) is involved in the neurotrophic effects of EGF.
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PMID:Neurotrophic effects of epidermal growth factor on cultured brain neurons are blocked by protein kinase inhibitors. 143 24

Glucocorticoids stimulate the prostaglandin E2 production of confluent amnion cell cultures, but have no stimulatory effect on the PGE2 output of freshly isolated human amnion cells. Since protein phosphorylation may modify the responsiveness of target cells to steroids, and activators of protein kinase C (PKC), as well as corticosteroids, promote amnion cell PGE2 output by stimulating the synthesis of prostaglandin endoperoxide H synthase (PGHS), we investigated the possibility that PKC is involved in the glucocorticoid-induction of PGE2 synthesis in cultured amnion cells. The dexamethasone-induced PGE2 output of arachidonate-stimulated cells was blocked by the protein kinase inhibitors staurosporine, K-252a, H7, HA1004, and sphinganine, in a manner consistent with their effect on PKC. However, dexamethasone increased the PGE2 production of cultures treated with maximally effective concentrations of the PKC-activator compound TPA. Moreover, dexamethasone stimulated PGE2 synthesis in cultures which were desensitized to TPA-stimulation by prolonged phorbol ester treatment. Concentration-dependence studies showed that staurosporine completely (greater than 95%) blocked glucocorticoid-provoked PGE2 synthesis at concentrations which did not inhibit TPA-stimulated prostaglandin output, and that K-252a inhibited the effect of TPA by more than 95% at concentrations which decreased the effect of dexamethasone only moderately (approximately 40%). Dibutyryl cyclic AMP had no influence on the basal- or dexamethasone-stimulated PGE2 production, and on the staurosporine inhibition of the steroid effect. These results show that glucocorticoids and phorbol esters control amnion PGE2 production by separate regulatory mechanisms. It is suggested that the response of human amnion cells to glucocorticoids is modulated by protein kinase(s) other than phorbol ester-sensitive PKC and cyclic AMP-dependent protein kinase.
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PMID:Glucocorticoid stimulation of amnion cell prostaglandin synthesis: suppression by protein kinase C inhibitors and independence of phorbol ester-sensitive protein kinase C. 150 1

Novel derivatives of K-252a, (8R*,9S*,11S*)-(-)-9-hydroxy-9-methoxycarbonyl- 8-methyl-2,3,9,10-tetrahydro-8,11-epoxy-1H,8H,11H-2,7b,11a-triazadibe nzo[a,g]-cycloocta[cde]trinden-1-one, an inhibitor of protein kinases and calmodulin-dependent phosphodiesterase, were synthesized and evaluated for their antitumor activity in vitro and in vivo. Of ten derivatives tested, four were active against the P388 murine leukemia i.p.-i.p. system, although K-252a was inactive. Among these derivatives, KT6124 was selected for further biological evaluation studies because its efficacy was the highest. KT6124 was also active against sarcoma 180 and B16 melanoma. It exerted a relatively broad spectrum of antiproliferative activity against 20 human tumor cell lines in vitro. To determine the mechanism(s) of action underlying the antitumor activity of KT6124, we tested the drug for inhibition of protein kinases, including Ca(2+)- and phospholipid-dependent protein kinase (PKC), in intact A431 human epidermoid carcinoma cells in comparison with the PKC-inhibitory activity of K-252a. KT6124 did not antagonize the action of phorbol 12-myristate 13-acetate (PMA) in A431 cells, whereas K-252a did, suggesting that KT6124 may not act on protein kinases in the cells. The interaction of KT6124 with DNA in living cells was examined by the alkaline elution method. KT6124 apparently exhibited DNA scission both dose- and time-dependently in the target cells. The DNA breakage was dependent on proteinase K treatment, suggesting its possible interaction with DNA-related enzyme(s). These results indicate that KT6124 exerts antitumor activity by acting on DNA or on DNA-related enzyme(s) in tumor cells rather than via the inhibition of protein kinases.
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PMID:Antitumor effect of KT6124, a novel derivative of protein kinase inhibitor K-252a, and its mechanism of action. 153 71

Staurosporine is an antibiotic that specifically inhibits protein kinase C. Fourteen staurosporine- and temperature-sensitive (stt) mutants of Saccharomyces cerevisiae were isolated and characterized. These mutants were divided into ten complementation groups, and characterized for their cross-sensitivity to K-252a, neomycin, or CaCl2. The STT1 gene was cloned and sequenced. The nucleotide sequence of the STT1 gene revealed that STT1 is the same gene as PKC1. The STT1 gene conferred resistance to staurosporine on wild-type cells, when present on a high copy number plasmid. STT1/stt1::HIS3 diploid cells were more sensitive to staurosporine than STT1/STT1 diploid cells. Analysis of temperature-sensitive stt1 mutants showed that the STT1 gene product functioned in S or G2/M phase. These results suggest that a protein kinase (the STT1 gene product) is one of the essential targets of staurosporine in yeast cells.
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PMID:Characterization of a staurosporine- and temperature-sensitive mutant, stt1, of Saccharomyces cerevisiae: STT1 is allelic to PKC1. 153 90

The ras gene product (p21) is thought to transduce signals from various growth and differentiation factors. p21 is a GTP-binding protein, and its activity is regulated by the bound GDP/GTP ratio. We analysed p21-bound nucleotides in cell lysates of rat pheochromocytoma cell line PC12 cells stimulated with various factors. Nerve growth factors (NGF) rapidly increased the relative amount of active p21-GTP complex to as much as 20% of the total amount of p21 within 2 min. The amount of p21-GTP then declined to 8% after 10 min, and this level was sustained for at least 2 h. Epidermal growth factor (EGF) also stimulated a rapid accumulation of p21-GTP to the same extent as seen with NGF, but the amount of p21-GTP declined to 5% after 10 min and gradually returned to the basal level within 60 min. In contrast, basic fibroblast growth factor, interleukin 6 and dibutyryl cAMP, which induce neuronal differentiation of PC12 cells, did not stimulate the accumulation of p21-GTP at any time point examined. Phorbol 12-myristate 13-acetate also had no effect. Interestingly, the protein kinase inhibitor K-252a specifically suppressed the NGF-induced accumulation of p21-GTP, but did not suppress the EGF-induced response. These results strongly suggest that an active p21-GTP complex transduces the differentiation signal from NGF. It may also be suggested that the process of activating p21 is mediated by a K-252a-sensitive protein kinase(s).
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PMID:Nerve growth factor induces rapid accumulation of the GTP-bound form of p21ras in rat pheochromocytoma PC12 cells. 154 49

K-252a, a general kinase inhibitor, selectively blocks the actions of nerve growth factor (NGF) in PC12 cells. Since gangliosides have been reported to modulate neuronal cell responsiveness to NGF and to regulate several protein kinases, the ability of these compounds to reverse the inhibition by K-252a was tested. Parameters at both short- and long-term times following treatment of PC12 cells with NGF were analyzed which are known to be either transcription-dependent or -independent events. Gangliosides were found to completely prevent the inhibition by K-252a of NGF-induced neurite regeneration and c-fos induction, and partially also that of protein kinase N activation. The ganglioside protective effects were concentration-dependent and required the intact molecule. These findings raise the possibility that gangliosides might affect a specific pathway of NGF responses sensitive to inhibition by K-252a.
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PMID:Gangliosides prevent the inhibition by K-252a of NGF responses in PC12 cells. 155 Dec 31

K-252b, a protein kinase inhibitor, has been shown earlier to inhibit nerve growth factor actions on cholinergic neurons of the basal forebrain. In the present study, K-252b was found to prevent trophic actions of two other neurotrophins, brain-derived neurotrophic factor, and neurotrophin-3, on central cholinergic and dopaminergic neurons, peripheral sensory neurons, and PC12 pheochromocytoma cells, when used at greater than 2 microM concentration. Comparable actions of nonneurotrophin growth factors were not affected. Surprisingly, at 0.1-100 nM, K-252b selectively enhanced the trophic action of neurotrophin-3 on central cholinergic neurons, peripheral sensory neurons, and PC12 cells. In PC12 cells, K-252b potentiated the neurotrophin-3-induced tyrosine phosphorylation of trk, a protein kinase responsible for transmitting neurotrophin signals. Of the three structurally related nerve growth factor inhibitors, K-252a, K-252b, and staurosporine, only the first two also mediated neurotrophin-3 potentiation. These findings indicate that K-252b generally and selectively potentiates the neurotrophic action of neurotrophin-3 and suggest that this action involves trk-type neurotrophin receptors.
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PMID:K-252b selectively potentiates cellular actions and trk tyrosine phosphorylation mediated by neurotrophin-3. 162 41

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