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 metabolism of exogenous [3H]diacylglycerols by intact human platelets was studied in order to examine: the metabolic fate of these second messengers in an intact cell, the effect of diacylglycerol kinase and diacylglycerol lipase inhibitors on this metabolism, the effect of agonist stimulation on metabolism, and the dependence of metabolism on diacylglycerol chain length. When 2.5 microM [3H]dioctanoylglycerol (diC8) was added to 10(9) platelets it was rapidly metabolized; 80% was converted to various products in 2.5 min. Initially, 40% was recovered as 3H-labeled phospholipid (predominantly phosphatidic acid) reflecting the action of diacylglycerol kinase, 20% was recovered as [3H]glycerol due to the action of diacylglycerol and monoacylglycerol lipases, and small amounts were recovered as triacylglycerol and monoacylglycerol. Thrombin stimulation of platelets did not affect the rate or pathway of metabolism. Pretreatment of platelets with the diacylglycerol kinase inhibitors, diC8ethyleneglycol or 1-monooleoylglycerol, inhibited 3H-labeled phospholipid production 47% and 75%, respectively, and resulted in a longer lived diC8 signal. The diacylglycerol lipase inhibitor, RHC 80267, inhibited the production of water-soluble metabolites 75%. Despite inhibition of the lipase, the overall metabolism of exogenous [3H]diC8 occurred at a similar rate as in control platelets due to an increased flux towards phospholipid. The ability of exogenous diacylglycerols to be metabolized by diacylglycerol kinase correlated well with their ability to activate protein kinase C in platelets. [3H]Dibutyroylglycerol, didodecanoylglycerol, and ditetradecanoylglycerol, were not metabolized by this route. These diacylglycerols were still metabolized via the lipase pathway. The results indicate that platelets possess potent attenuation systems to defend against the accumulation of diacylglycerol second messengers, and that the primary metabolic fate of cell-permeable, exogenous diacylglycerols is conversion to phosphatidic acid.
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PMID:Attenuation of sn-1,2-diacylglycerol second messengers. Metabolism of exogenous diacylglycerols by human platelets. 301 79

Considerable controversy exists concerning the possible role of lead in the etiology of human hypertension. In animal studies, there is convincing evidence that lead alters cardiovascular responsiveness; rats drinking water containing 100 ppm lead develop a chronic, significant 15 to 20 mm Hg elevation in systolic blood pressure. Pressor responsiveness to catecholamines is enhanced in animals chronically exposed to lead, and the responsiveness of isolated vascular smooth muscle to adrenergic agonists is increased in rats with lead-induced hypertension. Experimental evidence suggests that alterations in the cellular mechanisms that regulate intracellular calcium concentration may contribute to the abnormal vascular function in lead-induced hypertension. Recent work in our laboratory indicates that increased vascular reactivity in genetic hypertension is associated with altered activity of the protein kinase C branch of the calcium messenger system. Contractile responses to lead in rabbit mesenteric artery are potentiated by activators (phorbol esters) of this enzyme complex, and a selective inhibitor of protein kinase C inhibited contractions induced by lead. Based on these results, it is proposed that a cellular component of the action of lead to increase vascular reactivity may relate to the role of protein kinase C in smooth muscle contraction.
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PMID:Effects of lead on vascular reactivity. 306 Mar 55

Cells of the sponge Microciona prolifera dissociated in Ca,Mg-free sea water reaggregate upon addition of Ca, an observation classically attributed to the requirement for Ca of a species-specific aggregation factor. We now report that, unexpectedly, extracellular Ca is not required during aggregation; brief Ca pulses (1-3 sec) terminated by excess EDTA suffice to prepare the cells for aggregation by Ca ionophores (e.g. A23187). We also show that phorbol myristate acetate (PMA) promotes aggregation of pulse-prepared cells. Since PMA and A23187 act synergistically in Microciona, the "twin signal" hypothesis, signalling by Ca and protein kinase C in parallel, is validated in this primitive animal.
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PMID:Aggregation of marine sponge cells induced by Ca pulses, Ca ionophores, and phorbol esters proceeds in the absence of external Ca. 308 Oct

The biochemical mechanisms subserving the inhibitory actions of prostaglandin F2 alpha on ovarian cells are not known. Since the protein kinase C pathway is coupled to steroidogenesis in an inhibitory fashion in pig granulosa cells, we have tested the hypothesis that prostaglandin F2 alpha activates this phospholipid-dependent, calcium-stimulated effector pathway. Using monolayer cultures of swine granulosa cells, we now report that prostaglandin F2 alpha is capable of activating critical components of the protein kinase C pathway, including the production of water-soluble inositol phosphates, liberation of free arachidonic acid, release of endogenous diacylglycerol, and translocation of cytosolic protein kinase C to the phospholipid-enriched membrane microenvironment.
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PMID:Prostaglandin F2 alpha initiates polyphosphatidylinositol hydrolysis and membrane translocation of protein kinase C in swine ovarian cells. 312 Jul 21

Activation of protein kinase C (PKC) and elevation of intracellular calcium ion concentration ([Ca++]i) result from phosphatidylinositol biphosphate (PIP2) breakdown. We previously demonstrated that PKC activation inhibits arginine vasopressin (AVP)-induced osmotic water flow in rabbit cortical collecting tubule (CCT) perfused in vitro at 37 degrees C. To estimate the potential significance of PIP2 turnover as a modulator of water transport in this nephron segment, we examined the effect of Ca on AVP action and explored the mechanisms of action of PKC and increased [Ca++]i. In rabbit CCTs perfused at 37 degrees C, pretreatment with bath A23187 (2 x 10(-8) M, 2 x 10(-6) M), a Ca ionophore, almost totally suppressed AVP (10 microU/ml)-induced peak hydraulic conductivity (Lp). The suppression by 2 x 10(-8) M A23187 was as potent as that by 2 x 10(-6) M A23187, and significant even when it was administered 10 min after AVP. When phorbol myristate acetate (PMA, 10(-9) M), a PKC activator, and A23187 (2 x 10(-8) M) were placed in the bath simultaneously, the combined suppressive effect on peak Lp was greater than that of either inhibitor alone. However, the mechanisms of inhibition by PMA and A23187 were different. While both 10(-7) and 10(-9) M PMA suppression are primarily post-cAMP, A23187 predominantly suppressed a pre-cAMP step: 10(-4) M chlorophenylthio-cAMP-induced peak Lp was not affected by 2 x 10(-8) M A23187, and only partially inhibited by 2 x 10(-6) M A23187. The PMA (10(-7) M) suppression of AVP-induced peak Lp was totally reversed by bath staurosporine (10(-7) M), a PKC inhibitor, but not attenuated by either bath indomethacin (5 x 10(-6) M) or low Ca (1-2 x 10(-6) M) bath medium. In contrast, the A23187 (2 x 10(-8) M) suppression of the peak Lp was not affected by staurosporine, but was significantly reversed by indomethacin or low Ca bath medium. We conclude: (a) Elevation of [Ca++]i, as well as activation of PKC, suppresses the hydroosmotic effect of AVP on CCT at 37 degrees C. (b) When stimulated simultaneously these two intracellular mediators are additive in their antagonism of AVP action. These results suggest that stimulated PIP2 breakdown may be an important modulator of water transport in CCT. (c) Different mechanisms underlie PKC and Ca-mediated suppression of the AVP-induced water transport. The inhibition of AVP action by increased [Ca++]i is primarily pre-cAMP, and involves a cyclooxygenase metabolite(s) of arachidonic acid, while the inhibition by PKC is post-cAMP, and independent of cyclooxygenase products of arachidonic acid.
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PMID:Phorbol ester and A23187 have additive but mechanistically separate effects on vasopressin action in rabbit collecting tubule. 313 Mar 97

The association of protein kinase C (PKC) with phospholipid (PL) monolayers spread at the air-water interface was examined. PKC-PL binding induced surface pressure changes that were dependent on the amount of PKC, the phospholipid composition of the monolayers, the presence of Ca2+, and the initial surface pressure of the monolayer (pi 0). Examination of surface pressure increases induced by PKC as a function of phospholipid surface pressure, pi 0, revealed that PKC-phosphatidylserine (PS) association had a critical pressure of 43 dyn/cm. Above this surface pressure, PKC cannot cause further surface pressure changes. This high critical pressure indicated that PKC should be able to penetrate many biological membranes which appear to have surface pressures of about 30 dyn/cm. PKC-induced surface pressure changes were Ca2+ dependent only for PL monolayers spread at a pi 0 greater than 26 dyn/cm. PKC alone (in the absence of PL) formed a film at the air-water interface with a surface pressure of about 26 dyn/cm. Calcium-dependent binding was studied at the higher surface pressures which effectively excluded PKC from the air-water interface. Subphase depletion measurements suggested that association of PKC with PS monolayers consisted of two stages: a rapid Ca2+-dependent interaction followed by a slower process that resulted in irreversible binding of PKC to the monolayer. The second stage appeared to involve penetration of PKC into the hydrocarbon region of the phospholipid. The commonly used in vitro substrates for PKC, histone and protamine sulfate, also associated with and penetrated PS monolayers with critical pressures of 50 and 60 dyn/cm, respectively.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Association of protein kinase C with phospholipid monolayers: two-stage irreversible binding. 314 5

Activators of protein kinase C, a calcium- and phospholipid-dependent protein kinase, inhibit vasopressin-stimulated water flow in toad bladder. To determine the biochemical mechanisms of this inhibition, we examined the effects of activators of protein kinase C on arginine vasopressin (AVP)-stimulated adenylate cyclase activity in cultured rabbit cortical collecting tubular cells. The phorbol ester, 4 beta-phorbol 12-myristate 13-acetate (PMA), the diacylglycerol, 1-oleyl-2-acetyl glycerol (OAG), and the diacylglycerol kinase inhibitor, R59022, all rapidly activate protein kinase C in collecting tubular cells. Pretreatment with PMA produces a delayed inhibition (greater than or equal to 4 h) of AVP-stimulated adenylate cyclase activity. The 4-h time lag suggests that the effects of protein kinase C are mediated indirectly, possibly as a consequence of stimulating cell proliferation. PMA does not inhibit cholera toxin- or forskolin-stimulated adenylate cyclase activity, suggesting an effect on the vasopressin receptor or coupling of the receptor to the stimulatory guanine nucleotide regulatory protein. Neither prostaglandins nor the inhibitory guanine nucleotide regulatory protein appear to mediate this effect. In contrast, treatment with either OAG or R59022 produces a rapid inhibition of both AVP- and forskolin-stimulated adenylate cyclase activity suggesting a prominent distal site of action, presumably at the catalytic subunit of adenylate cyclase. The results demonstrate that different activators of protein kinase C inhibit AVP-stimulated adenylate cyclase activity by distinctly different mechanisms possibly by altering the substrate specificity or activating multiple forms of the kinase. These results have important implications when using different activators to study the biological effects of protein kinase C.
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PMID:Phorbol esters inhibit adenylate cyclase activity in cultured collecting tubular cells. 333 16

Agonist-induced degradation of phosphatidylcholine (PC) is of interest as this pathway of diacylglycerol (DG) generation may provide added opportunities for the regulation of protein kinase C (PKC). In REF52 cells [3H]myristic acid is preferentially incorporated into PC; this, coupled with the use of [3H]choline, allows for quantitation of both the water-soluble and the lipid products generated when PC is degraded. In cells prelabeled with [3H]choline, TPA stimulated a time-dependent release, into the medium, of choline and not phosphocholine or glycerophosphocholine. Treatment of [3H]myristic acid-labeled cells with either phorbol diesters, sn-1,2-dioctanoylglycerol, or vasopressin elicited the formation of labeled phosphatidate (PA) and DG. The temporal pattern of PC hydrolysis in cells treated with TPA is indicative of a precursor (PA)-product (DG) relationship for an enzymatic sequence initiated by phospholipase D. Adding propranolol, a phosphatidate phosphohydrolase inhibitor, eliminated TPA-induced DG formation, whereas PA generation was unaffected. From these data we conclude that TPA elicits DG formation from PC by the sequential actions of phospholipase D and phosphatidate phosphohydrolase.
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PMID:The phosphatidylcholine pathway of diacylglycerol formation stimulated by phorbol diesters occurs via phospholipase D activation. 338 87

Elevated intracellular Ca2+ concentration within the Hermissenda type B cell has previously been shown to cause transient reduction of both the early K+ current IA and the delayed, Ca2+-dependent K+ current ICa2+-K+, a reduction that is more permanent with classical conditioning. Other earlier experiments suggested that Ca2+-mediated reduction of K+ currents initially involves the dual activation of Ca2+/calmodulin-dependent and Ca2+/lipid-dependent protein kinases. In the present study, voltage-clamp conditions that cause substantial increases in intracellular Ca2+ concentration (i.e., a Ca2+ "load") were used to produce IA and ICa2+-K+ reduction with and without the protein synthesis inhibitor anisomycin or cycloheximide or the control substance deacetylanisomycin in the bathing medium. Anisomycin (100 microM) and cycloheximide (100 microM) caused no significant change of resting membrane potential, holding current, or the non-voltage-dependent "leak" current. However, inhibition of protein synthesis prevented recovery from Ca2+-mediated K+-current reduction. This effect resembled the effect of injecting purified Ca2+-dependent kinases and was blocked by the presence of trifluoperazine in the bathing medium. Activation of protein kinase C with a water-soluble phorbol ester caused marked reduction of protein synthesis in Hermissenda neurons as monitored by two-dimensional gel electrophoresis. Synthesis of new proteins therefore may be important for reversal of initial steps during memory storage, and Ca2+-activated phosphorylation pathways may initiate long-term changes by turning off (as well as by turning on) the synthesis of particular proteins.
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PMID:Inhibition of protein synthesis prolongs Ca2+-mediated reduction of K+ currents in molluscan neurons. 347 19

Serosal preincubation of frog skin with tetradecanoyl phorbol acetate, TPA, an activator of protein kinase C, inhibits the hydrosmotic response elicited by vasopressin (AVP) but not that induced by 8br-cAMP. This proves that serosal TPA primarily influences a pre-cAMP step. The TPA-induced inhibition of AVP response appears to be related to TPA-induced prostaglandin synthesis. The pretreatment with naproxen, in fact, prevents the inhibition induced by serosal TPA on the AVP response. On the contrary, mucosal TPA produces a more marked inhibition of the response to AVP and significantly diminishes the water flow induced by 8br-cAMP; this suggests that mucosal TPA interferes mainly with a post-cAMP step. Furthermore, naproxen is unable to completely prevent the inhibition induced by mucosal TPA on AVP response thus indicating that mucosal TPA may also activate a prostaglandin-independent mechanism able to inhibit one of the last steps of the hydrosmotic response to AVP.
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PMID:Phorbol ester effect on the hydrosmotic response to vasopressin in frog skin. 349 87


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