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 mechanism of tumor necrosis factor (TNF)-alpha signaling is unknown. TNF-alpha signaling may involve sphingomyelin hydrolysis to ceramide by a sphingomyelinase and stimulation of a ceramide-activated protein kinase. In a cell-free system, TNF-alpha induced a rapid reduction in membrane sphingomyelin content and a quantitative elevation in ceramide concentrations. Ceramide-activated protein kinase activity also increased. Kinase activation was mimicked by addition of sphingomyelinase but not by phospholipases A2, C, or D. Reconstitution of this cascade in a cell-free system demonstrates tight coupling to the receptor, suggesting this is a signal transduction pathway for TNF-alpha.
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PMID:Tumor necrosis factor-alpha activates the sphingomyelin signal transduction pathway in a cell-free system. 131 89

Sphingosine activates casein kinase II in the presence of endogenous substrates as well as a synthetic peptide substrate. The activation response occurred between 12 and 25 micrograms/ml sphingosine and exhibited positive cooperativity with a Hill coefficient of 3.0. Sphingosine not only increased the Vmax of casein kinase II but decreased the Km(app) for the peptide substrate from 0.5 to 0.08 mM. In contrast, the Km(app) for MgCl2 was increased from 0.12 to 0.7 mM. Consequently, sphingosine altered significantly several parameters which determine casein kinase II activity. The effect of sphingosine was relatively specific, inasmuch as related lipids were less potent activators or largely ineffective in stimulating casein kinase II. On the other hand, the effect of sphingosine itself could be potentiated or inhibited by other lipids. Ceramide and sphingosylphosphorylcholine augmented the sphingosine effect. Phospholipids alone did not alter the activity of casein kinase II significantly, but abolished enzyme activation by sphingosine with different potencies (phosphatidylserine greater than phosphatidylethanolamine greater than phosphatidylinositol greater than phosphatidylcholine). Moreover, the sphingosine effect could be abrogated by KCI and NaCl, which alone are known to induce enzyme activation and dissociation of aggregated casein kinase II protein; LiCl and NH4Cl also inhibited the sphingosine effect. Polyamines, known activators of casein kinase II, partially mimicked the effect of sphingosine on endogenous polypeptide phosphorylation but failed to do so with the peptide substrate. These observations demonstrate that sphingosine is a potent activator of casein kinase II. The potential pharmacological and physiological modulation of casein kinase II by sphingoid bases is discussed.
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PMID:Activation of casein kinase II by sphingosine. 193

Recent investigations have identified a signal-transduction system involving sphingomyelin and derivatives. In this paradigm, sphingomyelin hydrolysis by a sphingomyelinase generates ceramide, which may be converted to the protein kinase C inhibitor sphingosine or to ceramide 1-phosphate. Ceramide may have second-messenger function because it induces epidermal growth factor receptor phosphorylation, presumably on Thr-669 in A-431 cells. The present studies describe a kinase that may mediate ceramide action. With a 19-amino acid epidermal growth factor receptor peptide containing Thr-669, a membrane-bound activity that phosphorylated the peptide was detected in A-431 cells. Activity was linearly related to ATP (0.3-300 microM) and peptide concentration (0.02-1 mg/ml), possessed a physiologic pH optimum (pH 7.0-7.4), and was Mg(2+)-dependent. Other cations--Ca2+, Mn2+, and Zn(2+)--were ineffective. Natural and synthetic ceramide induced time- and concentration-dependent enhancement of kinase activity. Ceramide (0.5 microM) increased kinase activity 2-fold by 30 s, and activity remained elevated for at least 15 min. As little as 0.001 microM ceramide was effective, and 1 microM ceramide induced maximal phosphorylation. Sphingosine was similarly effective. Because tumor necrosis factor (TNF) alpha rapidly induces sphingomyelin hydrolysis to ceramide during monocytic differentiation of HL-60 cells, its effects on kinase activity were assessed. Kinase activity was increased 1.5-fold at 5 min and 2-fold at 2 hr in membranes derived from TNF-stimulated cells. The effective concentration range was 3 pM-30 nM TNF. Exogenous ceramide induced a similar effect. In sum, these studies demonstrate the existence of an unusual Mg(2+)-dependent ceramide-activated protein kinase that may mediate some aspects of TNF-alpha function.
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PMID:Characterization of a ceramide-activated protein kinase: stimulation by tumor necrosis factor alpha. 194 18

In KB epidermoid cells, we previously showed that interleukin-1 alpha (IL-1) and various mitogens activate the mitogen-activated protein (MAP) kinases ERK1 and ERK2, which phosphorylate both myelin basic protein (MBP) and a peptide containing Thr669 of the epidermal growth factor receptor. In cell-free extracts made from gingival fibroblasts treated with platelet-derived growth factor or HepG2 hepatoma cells stimulated with phorbol myristate acetate, MBP and Thr669 kinase were both elevated 4-fold, and ERK1 and ERK2 were tyrosine-phosphorylated. In these cells IL-1 activated a kinase(s) that phosphorylated Thr669 peptide but not MBP and failed to cause tyrosine phosphorylation of ERK1/ERK2. Ceramide has been proposed as an intracellular mediator of IL-1 action, but C2-ceramide or sphingosine stimulated predominantly MBP-specific kinase activity in fibroblasts and had no effect in HepG2 cells. p54 MAP kinase (also called stress-activated protein kinase) is a c-Jun kinase first isolated from livers of cycloheximide-treated rats. After IL-1 stimulation, immunoprecipitates of lysates made from all three cell types with specific anti-p54 MAP kinase serum contained Thr669 and c-Jun phosphorylating activity, whereas precipitates from unstimulated cells contained no detectable p54 kinase activity. The major peak of IL-1-stimulated HepG2 Thr669 kinase activity co-chromatographed on Mono Q and phenyl-Superose with immunodetectable p54 MAP kinase. IL-1 did not cause p21ras activation in any cell type. Induction of Thr 669 kinase activity was not abrogated by elevation of cAMP levels, which has been shown to interfere with the activation of Raf-1. We could not detect MAP kinase kinase phosphorylating activity in unfractionated lysates made from IL-1-stimulated fibroblasts or HepG2 cells. KB cells contained a small amount of this activity, but it was not precipitated with an anti-Raf-1 antibody. We conclude that most of the IL-1-activated Thr669 kinase activity in fibroblasts and HepG2 cells, and a portion in KB cells, is due to p54 MAP kinase and that its activation is Ras-, Raf-, and MAP kinase kinase-independent.
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PMID:Interleukin-1 activates p54 mitogen-activated protein (MAP) kinase/stress-activated protein kinase by a pathway that is independent of p21ras, Raf-1, and MAP kinase kinase. 752 98

Ceramide produced by sphingomyelinases (SMases) has been recognized as an important second messenger in growth factor receptor signaling. Tumor necrosis factor (TNF), through binding to the 55 kDa TNF receptor (TNF-R55), rapidly activates two distinct types of SMase, a membrane-associated neutral (N-)SMase, and an endosomal acidic (A)-SMase. N-SMase and A-SMase are activated independently by different cytoplasmic domains of TNF-R55. Each type of SMase specifically couples to select pathways of TNF signaling. Ceramide generated by N-SMase directs the activation of proline-directed serine/threonine protein kinase(s) and phospholipase A2. In contrast, A-SMase triggers the activation of NF-kappa B. No apparent crosstalk was detected between N-SMase and A-SMase pathways, indicating that ceramide action depends on the topology of its production. These results suggest that N-SMase and A-SMase control important yet dissociable and nonoverlapping pathways of TNF receptor signal transduction.
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PMID:Functional dichotomy of neutral and acidic sphingomyelinases in tumor necrosis factor signaling. 792 51

Tumor necrosis factor (TNF) and interleukin-1 (IL-1) are cytokines with pleiotropic biological activities, exerting a broad range of overlapping biological functions. The redundancy of TNF and IL-1 activities may be based on the utilization of shared key components of intracellular signaling pathways. Two lipid second messengers have been found to transmit TNF and IL-1 intracellular signals: 1,2-diacylglycerol (DAG), generated by a phosphatidylcholine-specific phospholipase C, and ceramide, generated by sphingomyelinase (SMase). DAG is a well established activator of the important signaling system protein kinase C (PKC), which appears to mediate various cellular responses to TNF or IL-1. In addition, it is obvious that DAG also activates other enzyme systems like acidic sphingomyelinase. SMases have been implicated in a number of TNF responses, including stimulation of cell growth and differentiation, as well as triggering cytotoxicity and apoptosis. The metabolic active cleavage product of SMase, ceramide, is a novel multifunctional lipid second messenger capable of inducing various signaling systems. Both cytokines, TNF and IL-1, stimulate a neutral,plasma membrane-associated SMase that leads to stimulation of a protein kinase and eventually to activation of the mitogen-activated protein (MAP) kinase cascade and phospholipase A2. Ceramide is also capable of stimulating a cytosolic protein phosphatase. PKC plays a role in activation of the nuclear transcription factor AP-1, and the DAG-regulated acidic SMase is involved in transducing TNF signals to the cell nucleus via activation of the nuclear transcription factor NF-kappa B.
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PMID:The role of diacylglycerol and ceramide in tumor necrosis factor and interleukin-1 signal transduction. 796 60

Recent investigations provided evidence that the sphingomyelin signal transduction pathway mediates apoptosis for tumor necrosis factor alpha (TNF-alpha) in several hematopoietic and nonhematopoietic cells. In this pathway, TNF-receptor interaction initiates sphingomyelin hydrolysis to ceramide by a sphingomyelinase. Ceramide acts as a second messenger stimulating a ceramide-activated serine/threonine protein kinase. The present studies show that ionizing radiation, like TNF, induces rapid sphingomyelin hydrolysis to ceramide and apoptosis in bovine aortic endothelial cells. Elevation of ceramide with exogenous ceramide analogues was sufficient for induction of apoptosis. Protein kinase C activation blocked both radiation-induced sphingomyelin hydrolysis and apoptosis, and apoptosis was restored by ceramide analogues added exogenously. Ionizing radiation acted directly on membrane preparations devoid of nuclei, stimulating sphingomyelin hydrolysis enzymatically through a neutral sphingomyelinase. These studies provide the first conclusive evidence that apoptotic signaling can be generated by interaction of ionizing radiation with cellular membranes and suggest an alternative to the hypothesis that direct DNA damage mediates radiation-induced cell kill.
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PMID:Ionizing radiation acts on cellular membranes to generate ceramide and initiate apoptosis. 804 31

The sphingomyelin pathway is a new signal transduction system initiated by hydrolysis of plasma membrane sphingomyelin to ceramide by the actin of a neutral sphingomyelinase. Ceramide serine/threonine protein kinase termed ceramide-activated protein kinase. This kinase belongs to a family of proline-directed protein kinases that recognize substrates containing the minimal motif, X-Thr/Ser-Pro-X, where the phosphoacceptor site is followed on the carboxyl terminus by a proline residue and X may be any amino acid. Three lines of evidence, rapid kinetics of activation of the sphingomyelin pathway by tumor necrosis factor (TNF) alpha, the ability of cell-permeable ceramide analogs to bypass receptor activation and mimic the effect of TNF alpha, and reconstitution of this cascade in a cell-free system, support the concept that the sphingomyelin pathway serves to signal TNF alpha-induced monocytic differentiation. Hence, the sphingomyelin pathway may represent a signaling system analogous to more well-defined systems such as the cyclic adenosine monophosphate and phosphoinositide pathways.
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PMID:Signal transduction through the sphingomyelin pathway. 808 39

Recent investigations identified a new signal transduction pathway, termed the sphingomyelin pathway, which may mediate the action of tumor necrosis factor (TNF) alpha and interleukin-1 beta (Mathias, S., Younes, A., Kan, C., Orlow, I., Joseph, C., and Kolesnick, R. N. (1993) Science 259, 519-522). This pathway is initiated by hydrolysis of sphingomyelin to ceramide by a neutral sphingomyelinase and stimulation of a ceramide-activated Ser/Thr protein kinase. Recent investigations demonstrated that kinase activity is proline-directed, recognizing substrates in which the phosphoacceptor site is followed by a proline residue. Until now, the kinase has been defined only as a membrane-bound activity capable of phosphorylating a peptide derived from the sequence surrounding Thr669 of the epidermal growth factor receptor. In the present studies, the kinase was quantitatively extracted from membrane with detergent and separated from protein kinase C by anion-exchange chromatography and isoelectric focusing. Ceramide-activated protein kinase was resolved as an exclusively membrane-bound, 97-kDa protein with a pI of 7.05. Kinase activity toward the epidermal growth factor receptor peptide co-purified with activity toward a generic proline-directed substrate, myelin basic protein. Kinase activity was reconstituted by a denaturation-renaturation procedure and demonstrated activity toward self (autophosphorylation) and exogenous substrate (myelin basic protein). Autophosphorylation occurred exclusively on serine residues. These activities were enhanced to 7-fold of control by ceramide and TNF alpha. These investigations provide additional evidence for a role for ceramide-activated protein kinase in signal transduction for TNF alpha.
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PMID:Renaturation and tumor necrosis factor-alpha stimulation of a 97-kDa ceramide-activated protein kinase. 830 Jun 38

We investigated the ability of N-octanoyl-sphingosine (C8-Cer) stereoisomers, N-octanoyl-DL-erythro-dihydrosphingosine (DL-e-DHC8-Cer), and a new ceramide derivative, N-octyl-D-erythro-sphingosine (D-e-C8-Ceramine), to induce apoptosis in U937 cells. We found the C8-Cer stereoisomers to be stereospecific with the D- and L-threo stereoisomers being severalfold more potent than the erythro in inducing nucleosomal fragmentation. The order of potency was: D-t-C8-Cer = L-t-C8-Cer > L-e-C8-Cer > D-e-C8-Cer > DL-e-DHC8-Cer. The importance of the carbonyl group in apoptosis was investigated by using a new ceramide derivative, D-e-C8-Ceramine, in which the carbonyl group was replaced by a methylene group. The carbonyl group was not necessary for triggering apoptosis. In fact, replacement of the carbonyl group decreased substantially the time required for cells to die, with maximum DNA fragmentation occurring at 6 h as opposed to the 18 h required by D-e-C8-Cer. To explore possible mechanisms by which these compounds trigger the apoptotic pathway, we tested their ability to increase the endogenous levels of cellular ceramide and to differentially activate a ceramide-activated protein kinase (CAPK). While the potent DNA fragmentation-inducing compounds D-e-C8-Ceramine and L-t-C8-Cer failed to increase the cellular ceramide levels, D-e-C8-Cer, D-t-C8-Cer and D-e-C8-Ceramine activated the CAPK equally. These studies suggest that the DNA fragmentation-inducing ability of the threo stereoisomers and D-e-C8-Ceramine cannot be attributed either to an increase in the activity of CAPK, or, as illustrated by D-e-C8-Ceramine and L-t-C8-Cer, to the differential elevation of endogenous ceramide. The phosphatase inhibitor okadaic acid failed to protect U937 cells from apoptosis induced by D-e-C8-Cer.
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PMID:Stereospecific induction of apoptosis in U937 cells by N-octanoyl-sphingosine stereoisomers and N-octyl-sphingosine. The ceramide amide group is not required for apoptosis. 861 51

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