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:2.7.11.13 (protein kinase C)
49,245 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The lipoxygenase products of arachidonic acid metabolism have been shown to be important mediators of stimulus secretion coupling in various endocrine tissues. We have recently shown that the 12-lipoxygenase product, 12-hydroxyeicosatetraenoic acid plays a key role as a new specific mediator of angiotensin II-induced aldosterone secretion in the adrenal. In view of the several pathways by which cellular arachidonate can be generated and the important role of diacylglycerol in angiotensin II-responses, we studied the role of diacylglycerol as the source of arachidonic acid for 12-hydroxyeicosatetraenoic formation. Treatment of normal human adrenal glomerulosa cells with the selective diacylglycerol-lipase inhibitor, RHC 80267, resulted in a dose-dependent inhibition of angiotensin II-induced aldosterone as well as 12-hydroxyeicosatetraenoic formation. These results suggest that AA derived from diacylglycerol is the precursor of 12-hydroxyeicosatetraenoic involved in angiotensin II-induced aldosterone secretion. These results reveal a new second messenger role for diacylglycerol in addition to activation of protein kinase C.
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PMID:Diacylglycerol provides arachidonic acid for lipoxygenase products that mediate angiotensin II-induced aldosterone synthesis. 284 16

Guanylate cyclase activities of human lymphocyte membrane and cytosol preparations are stimulated up to three-fold by the direct addition of phosphatidylserine. Phorbol 12-myristate 13-acetate (PMA) greatly augments the effect of phosphatidylserine, but has only a small effect when added alone. Stimulation involves an increase in Vmax, with no change in Km. Inhibitor studies suggest that stimulation may be mediated by protein kinase C, but not by phospholipase or lipoxygenase.
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PMID:Phosphatidylserine and phorbol myristate acetate stimulation of human lymphocyte guanylate cyclase. 287 2

Cells of the marine sponge, Microciona prolifera, the most ancient of the animal cells which clump on recognition, resemble neutrophils and platelets in undergoing stimulus-response coupling when exposed to Ca2+ ionophores and phorbol esters. We have studied lipid content and remodelling in sponge cells by thin-layer, gas-liquid, and high-performance liquid chromatography (HPLC) analyses supplemented by ultraviolet and mass spectroscopy. Phosphatidylcholine (PC) (35.6%), phosphatidylethanolamine (PE) (27.4%) and phosphatidylserine (PS) (21.4%) constituted the bulk of phospholipids detected. The major fatty acids were all polyenoic; 22:6 (22%), 26:2 (17%) and 26:3 (15%). Arachidonic acid (20:4), present as 2.7% of total phospholipid, and docosahexanoic acid (22:6) were found to elicit aggregation of sponge cells when added (10 microM) in synergy with ionomycin (1 microM), resembling in their effects those of phorbol esters (but not phorbol) and 1-oleyl-2-acetylglycerol (OAG). Moreover, 20:4 and 22:6, as well as phorbol ester and OAG, overcame the block to aggregation imposed by colchicine and vinblastine. Kinetic studies of lipid remodelling showed that aggregating cells diverted [14C]22:6 or [14C]20:4 from triacylglycerol into diacylglycerol and phospholipids; appearance of label in phosphatidic acid and phosphatidylinositol (PI) anteceded labeling of phosphatidylcholine. In unstimulated cells, [14C]22:6 was rapidly incorporated into phosphatidylcholine with little accumulation in phosphatidate. Although 22:6 and 20:4 resembled OAG and phorbol esters in overcoming the effects of colchicine and vinblastine (which had no effects on overall lipid metabolism), they did not reverse the block to aggregation of nordihydroguaiaretic acid (NDGA) (which inhibited lipid metabolism). Under none of these circumstances was 22:6 or 20:4 converted to cyclooxygenase or lipoxygenase products in the course of aggregation: all labeled acyl groups remained present as unmodified fatty acids on alkaline hydrolysis. These data not only extend the observations of Muller et al. (J. Biol. Chem. 262 (1987) 9850-9858) on the role of phosphoinositides and C kinase in marine sponge cell aggregation, but also demonstrate that sponges form diacylglycerols in the process. We suggest that exogenous 22:6 and 20:4 (like phorbol esters or OAG) can substitute for endogenous diacylglycerol in the activation of protein kinase C.
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PMID:Stimulus-response coupling in marine sponge cell aggregation: lipid metabolism and the function of exogenously added arachidonic and docosahexaenoic acids. 296 21

We investigated the involvement of arachidonate in the PRL secretory process using three experimental systems: hemipituitary glands incubated in vitro, cultured pituitary cells, and dispersed anterior pituitary cells perifused in columns. Arachidonate (100 microM) significantly (P less than 0.05) stimulated PRL release in the former system and stimulated PRL secretion in a dose-related manner in cultured cells. In hemipituitary glands, indomethacin, a cyclooxygenase inhibitor, potentiated the arachidonate-mediated stimulation, whereas nordihydroguaiaretic acid or BW755c abolished it. The latter two agents, but not indomethacin, abolished the effect of phospholipase A2 on PRL release in vitro. BW755c also inhibited the stimulatory effect of TRH on PRL release in both experimental systems. Conversely, the stimulation of PRL release by phorbol myristate acetate (PMA), although significantly reduced, was not abolished by either nordihydroguaiaretic acid or BW755c. Quinacrine, a phospholipase A2 inhibitor, also abolished the stimulatory effect of phospholipase A2 or TRH on PRL release. In cultured cells, quinacrine inhibits basal PRL release, but does not affect PRL release induced by arachidonate or (Bu)2 cAMP. These results more firmly establish a role for arachidonate as an intracellular mediator of PRL release and suggest the involvement of an arachidonate metabolic pathway(s) (lipoxygenase and epoxygenase) other than prostaglandin or thromboxane formation. The effect of PMA on PRL release may be attributable only in part to an increase in the production of arachidonate metabolites, and most of PMA's effect on PRL release may relate to its activation of protein kinase C.
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PMID:Arachidonate stimulates prolactin release in vitro: a role for the fatty acid and its metabolites as intracellular regulator(s) in mammotrophs. 298 Oct 65

Five new concepts concerning the control of corpus luteum function in the cow have been developed in recent years. Prostacyclin (PGI-2) plays a luteotrophic role. Conversely, products of the lipoxygenase pathway of arachidonic acid metabolism, particularly 5 hydroxyeicosatetraenoic acid (5-HETE), play luteolytic roles. Luteal cells arise from two sources. The small luteal cells are all of theca cell origin; the large cells found early in the cycle (Days 2-6) are mainly of granulosa cell origin. However, a population of large cells found after Day 10 of the cycle are of theca cell origin. Oxytocin of luteal cell origin plays a role in development of the corpus luteum and possibly in its regression. The recently described Ca2+-polyphosphoinositol-protein kinase C second messenger system, as well as the LH-cAMP system, is involved in control of progesterone synthesis in the bovine corpus luteum. Progesterone synthesis in the small theca-derived luteal cells is primarily controlled by the cAMP system. However, elevated intracellular calcium diminishes cAMP-mediated progesterone synthesis in these cells. These findings modify our current concepts of the mechanisms of control of progesterone secretion by the corpus luteum and suggest several new lines of research.
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PMID:Hammond memorial lecture. New concepts of the control of corpus luteum function. 302 24

Phorbol myristate acetate (PMA), a tumor-promoting phorbol ester, and the calcium ionophore A23187 synergistically induced the noncytotoxic release of leukotriene B4 (LTB4) and other 5-lipoxygenase products of arachidonic acid metabolism from human neutrophils. Whereas neutrophils incubated with either A23187 (0.4 microM) or PMA (1.6 microM) alone failed to release any 5-lipoxygenase arachidonate products, neutrophils incubated with both stimuli together for 5 min at 37 degrees C released LTB4 as well as 20-COOH-LTB4, 20-OH-LTB4, 5-(S),12-(R)-6-trans-LTB4, 5-(S),12-(S)-6-trans-LTB4, and 5-hydroxyeicosatetraenoic acid, as determined by high pressure liquid chromatography. This synergistic response exhibited concentration dependence on both PMA and A23187. PMA induced 5-lipoxygenase product release at a concentration causing a half-maximal effect of approximately 5 nM in the presence of A23187 (0.4 microM). Competition binding experiments showed that PMA inhibited the specific binding of [3H]phorbol dibutyrate ([3H]PDBu) to intact neutrophils with a 50% inhibitory concentration (IC50) of approximately 8 nM. 1-oleoyl-2-acetyl-glycerol (OAG) also acted synergistically with A23187 to induce the release of 5-lipoxygenase products. 4 alpha-phorbol didecanoate (PDD), an inactive phorbol ester, did not affect the amount of lipoxygenase products released in response to A23187 or compete for specific [3H]PDBu binding. PMA and A23187 acted synergistically to increase arachidonate release from neutrophils prelabeled with [3H]arachidonic acid but did not affect the release of the cyclooxygenase product prostaglandin E2. Both PMA and OAG, but not PDD, induced the redistribution of protein kinase C activity from the cytosol to the membrane fraction of neutrophils, a characteristic of protein kinase C activation. Thus, activation of protein kinase C may play a physiologic role in releasing free arachidonate substrate from membrane phospholipids and/or in modulating 5-lipoxygenase activity in stimulated human neutrophils.
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PMID:Phorbol myristate acetate and the calcium ionophore A23187 synergistically induce release of LTB4 by human neutrophils: involvement of protein kinase C activation in regulation of the 5-lipoxygenase pathway. 303 73

The biochemical events leading to enhanced membrane expression of HLA-DR and CR3 by human peripheral blood monocytes (MO) following exposure to bacterial lipopolysaccharide (LPS) were examined. In a previous study we demonstrated that an increase in intracellular calcium was necessary, but not sufficient, for MO to increase membrane expression of both antigens within 1 hr of addition of LPS. The present study was initiated to examine the other biochemical requirements which lead to the MO response to LPS. Enhanced expression of both antigens following addition of LPS was dependent on microfilament function, but independent of microtubule function and of protein synthesis. Inhibition of formation of cyclooxygenase or lipoxygenase metabolites of arachidonic acid had no effect on HLA-DR or CR3 modulation by LPS. A role for phosphatidylinositol metabolism was suggested by the inhibition of the MO response to LPS by dibutyryl cAMP and theophylline and by the enhanced expression of both antigens following addition of phorbol diesters. However, H-7, a putative inhibitor of protein kinase C, did not alter the MO response to LPS or phorbol diesters. These results suggest that LPS enhances expression of HLA-DR and CR3 by inducing redistribution of these antigens from an intracellular pool. The data also support a role for the generation of hydrolysis products of phosphatidylinositol, leading to calcium redistribution and activation of protein kinase C or other kinases, in the MO response to LPS.
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PMID:Biochemical basis of HLA-DR and CR3 modulation on human peripheral blood monocytes by lipopolysaccharide. 303 40

One or more phospholipases of the C and A2 types exist in rodent islets and may play a pivotal role in the cell signaling cascade culminating in exocytotic insulin release. Phospholipase C generates myo-inositol-1,4,5-trisphosphate, which mobilizes a "pool" of calcium in the endoplasmic reticulum and which may also secondarily facilitate calcium (Ca++) influx from the extracellular space to replenish that pool. Diacylglycerol is also generated by phospholipase C action and activates protein kinase C; it may thereby potentiate the cellular response to elevations in cytosolic free Ca++ concentration. Arachidonic acid may be released during the degradation of diacylglycerol and may also contribute to islet activation. Phospholipase C is activated by glucose, cholinergic agonists, and probably by Ca++ fluxes. Phospholipase A2 action generates arachidonic acid and lysophospholipids. Certain lysophospholipids mobilize cellular Ca++, at least in part from superficial, plasmalemmal stores. Native (unoxygenated) arachidonic acid also has the capability of mobilizing cellular Ca++ from membrane-bound stores; it may, in addition, activate protein kinase C, as suggested by recent indirect studies. The further metabolism of arachidonic acid via lipoxygenase and cyclo-oxygenase appears to provide positive and negative modulation, respectively, of stimulated insulin secretion. Many pieces of the puzzle remain, however, to be supplied. For example, it has not yet been unequivocally demonstrated that phospholipase A2 is activated by physiologic stimuli in intact islets. Furthermore, the absence of truly specific pharmacologic stimulators or inhibitors of these processes currently precludes precise delineation of the respective physiologic roles of each potential mediator in stimulus-secretion coupling. When such roles are elucidated, it can be asked whether the defects in insulin secretion in diabetes mellitus may be due in part to abnormalities in the turnover of beta-cell membrane phospholipids and the generation of intracellular lipid-derived signals.
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PMID:Membrane phospholipid turnover as an intermediary step in insulin secretion. Putative roles of phospholipases in cell signaling. 305 98

ODC, the first enzyme in mammalian polyamine biosynthesis, is rapidly induced in response to a wide variety of growth stimuli. However, there is no single mechanism which may explain the rapid turnover of ODC activity. ODC activity has been shown to be regulated at the level of synthesis and degradation, and also by post-translational modifications and an interaction with macromolecules. Our results indicate that TPA-induced ODC activity is regulated at the transcriptional level. An initial signal in ODC induction by TPA is not clear. We have suggested that TPA-increased accumulation of epidermal prostaglandins is required, but not sufficient, for ODC induction by TPA. Others have suggested the role of lipoxygenase product(s) in ODC induction. The role of the microtubule-containing system in regulation of ODC induction has been shown. The involvement of cyclic nucleotides in ODC induction by TPA is controversial. Also, generation of free radicals appears to be involved in ODC induction by TPA. Data summarized in this chapter indicate that activation of PKC may be an initial step in ODC induction by TPA.
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PMID:Mechanisms involved in ornithine decarboxylase induction by 12-O-tetradecanoylphorbol-13-acetate, a potent mouse skin tumor promoter and an activator of protein kinase C. 307 26

The relative contributions of arachidonic acid and protein kinase C during GnRH-stimulated LH release were investigated in cultured rat anterior pituitary cells. Maximal or near-maximal concentrations of arachidonic acid or the phorbol ester, 12-O-tetradecanoylphorbol 13-acetate, were less effective than a maximal dose of GnRH in stimulating LH release. However, the effect of a combination of arachidonic acid and phorbol ester was equivalent with that of GnRH. The protein kinase C inhibitor, retinal, significantly reduced GnRH- and phorbol-induced, but not arachidonic acid-stimulated, LH release. The lipoxygenase inhibitors, 5,8,11,14-eicosatetraynoic acid and nordihydroguaiaretic acid, partially inhibited GnRH- and arachidonic acid-stimulated, but not phorbol-induced, LH secretion. Simultaneous addition of retinal and either lipoxygenase inhibitor completely abolished LH responses elicited by GnRH, as well as by combined treatment with arachidonic acid and the phorbol ester. These results suggest that hormone release is mediated by phospholipid-dependent mechanisms that are coordinated during the stimulation of LH secretion by GnRH.
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PMID:Coordinate actions of arachidonic acid and protein kinase C in gonadotropin-releasing hormone-stimulated secretion of luteinizing hormone. 308 Sep 84


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