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 vasoocclusive crisis is the major clinical feature of sickle cell anemia, which is believed to be initiated or sustained by sickle (SS) red blood cell (RBC) adhesion to the vascular wall. SS RBCs, but not unaffected (AA) RBCs, adhere avidly to multiple components of the vascular wall, including laminin. Here we report a novel role for epinephrine and cyclic adenosine monophosphate (cAMP) in the regulation of human SS RBC adhesiveness via the laminin receptor, basal cell adhesion molecule/Lutheran (BCAM/Lu). Our data demonstrate that peripheral SS RBCs contain greater than 4-fold more cAMP than AA RBCs under basal conditions. Forskolin or the stress mediator epinephrine further elevates cAMP in SS RBCs and increases adhesion of SS RBCs to laminin in a protein kinase A (PKA)-dependent manner, with the low-density population being the most responsive. Epinephrine-stimulated adhesion to laminin, mediated primarily via the beta 2-adrenergic receptor, occurred in SS RBC samples from 46% of patients and was blocked by recombinant, soluble BCAM/Lu, implicating this receptor as a target of cAMP signaling. Thus, these studies demonstrate a novel, rapid regulation of SS RBC adhesion by a cAMP-dependent pathway and suggest that components of this pathway, particularly PKA, the beta 2-adrenergic receptor, and BCAM/Lu, should be further explored as potential therapeutic targets to inhibit SS RBC adhesion.
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PMID:Novel epinephrine and cyclic AMP-mediated activation of BCAM/Lu-dependent sickle (SS) RBC adhesion. 1250 27

The cyclic AMP (cAMP) pathway plays a major role in the development of endocrine tissues and various molecular defects of key components of this pathway (G protein, receptors, PKA, ...) have been observed in endocrine tumors. Hypersecretion of adrenocorticotropin hormone (ACTH), the key activator of the cAMP pathway in adrenal cortex, is associated with adrenocortical hyperplasia and cortisol oversecretion (Cushing's syndrome). The best example of "illegitimate" membrane receptors expression reported is the abnormal expression of the adenylyl cyclase activating gastric inhibitory peptide receptor (GIP-R) in ACTH-independent Cushing's syndrome (ACS). We have observed that ectopic expression of the GIP-R is frequent in ACTH-Independent Macronodular Adrenal Hyperplasia (AIMAH), rare in benign adrenal adenoma (AA), but seems absent in Adrenal Cancer (AC). In vivo systematic screening of AIMAH shows at least one abnormal response of cortisol (suggesting "illegitimate" membrane receptor expression) in almost all patients. Somatic and germ line inactivating mutations of PRKAR1 (regulatory subunit R1A of PKA) can be observed in patient with isolated primary pigmented nodular adrenocortical disease (PPNAD) and AA responsible for ACS. At the nuclear level, the cAMP pathway regulates transcription mainly by PKA-dependent phosphorylation of the cyclic AMP response element binding (CREB) family of transcription factors (CREB, CREM, and ATF-1). Cyclic AMP response element binding protein (CREB) is expressed in normal adrenal cortex. Alterations of CRE binding proteins with loss of CREB expression and compensatory overexpression of CREMtau is observed in the human adrenocortical cancer cell line H295R. Similar alterations are found at the protein level in human malignant adrenocortical tumors. In conclusion, various alterations leading to activation or inactivation of key components of the cAMP signaling pathway can be observed in adrenocortical tumorigenesis.
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PMID:cAMP pathway alterations from the cell surface to the nucleus in adrenocortical tumors. 1253 Jun 96

We evaluated the role of lipoxygenase products of arachidonic acid metabolism in mechanical hyperalgesia induced by epinephrine, an agent that directly sensitizes nociceptors to produce mechanical hyperalgesia via three second messenger signaling pathways, protein kinase A (PKA), protein kinase C epsilon (PKCepsilon), and mitogen activated protein kinase (MAPK). Epinephrine hyperalgesia and that induced by a selective activator of PKCepsilon, psiepsilonRACK, were inhibited by nordihydroguaretic acid (NDGA, non-selective lipoxygenase inhibitor), baicalein (BAIC, 12-lipoxygenase inhibitor) and 5, 6-dehydroarachidonic acid (5, 6-dhAA, 5-lipoxygenase inhibitor). NDGA and 5, 6-dhAA inhibited the hyperalgesia associated with activation of the protein kinase A pathway, elicited by the direct-acting hyperalgesic agent prostaglandin E(2) or by the catalytic subunit of protein kinase A. The hyperalgesia produced by active MAPK was not blocked by any of the lipoxygenase inhibitors. Injection of 5- and 12-lipoxygenase produced hyperalgesia that was not antagonized by inhibitors of PKA, PKCepsilon or MAPK. These findings suggest that: (1). lipoxygenase products of arachidonic acid function as second messengers in the peripheral hyperalgesia induced by agents that act directly on primary afferent nociceptors (epinephrine and prostaglandin E(2)), (2). products of the 5-lipoxygenase and 12-lipoxygenase pathway are involved in this function, and (3). these lipoxygenase products contribute to hyperalgesia at or downstream of protein kinase A and PKCepsilon.
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PMID:Contribution of 5- and 12-lipoxygenase products to mechanical hyperalgesia induced by prostaglandin E(2) and epinephrine in the rat. 1258 31

Intramuscular triacylglycerol is an important energy store and is also related to insulin resistance. The mobilization of fatty acids from this pool is probably regulated by hormone-sensitive lipase (HSL), which has recently been shown to exist in muscle and to be activated by both adrenaline and contractions. Adrenaline acts via cAMP-dependent protein kinase (PKA). The signalling mediating the effect of contractions is unknown and was explored in this study. Incubated soleus muscles from 70 g male rats were electrically stimulated to perform repeated tetanic contractions for 5 min. The contraction-induced activation of HSL was abolished by the protein kinase C (PKC) inhibitors bisindolylmaleimide I and calphostin C and reduced 50% by the mitogen-activated protein kinase kinase (MEK) inhibitor U0126, which also completely blocked extracellular signal-regulated kinase (ERK) 1 and 2 phosphorylation. None of the inhibitors reduced adrenaline-induced HSL activation in soleus muscle. Both phorbol-12-myristate-13-acetate (PMA), which activates PKC and, in turn, ERK, and caffeine, which increases intracellular Ca2+ without eliciting contraction, increased HSL activity. Activated ERK increased HSL activity in supernatant from basal but not from electrically stimulated muscle. In conclusion, in muscle, PKC can stimulate HSL through ERK. Contractions and adrenaline enhance muscle HSL activity by different signalling mechanisms. The effect of contractions is mediated by PKC, at least partly via the ERK pathway.
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PMID:Contractions activate hormone-sensitive lipase in rat muscle by protein kinase C and mitogen-activated protein kinase. 1279 77

Regulation of vascular smooth muscle cell contractile state is critical for the maintenance of blood vessel tone. Abnormal vascular smooth muscle cell contractility plays an important role in the pathogenesis of hypertension, blood vessel spasm, and atherosclerosis. Myosin phosphatase, the key enzyme controlling myosin light chain dephosphorylation, regulates smooth muscle cell contraction. Vasoconstrictor and vasodilator pathways inhibit and activate myosin phosphatase, respectively. G-protein-coupled receptor agonists can inhibit myosin phosphatase and cause smooth muscle cell contraction by activating RhoA/Rho kinase, whereas NO/cGMP can activate myosin phosphatase and cause smooth muscle cell relaxation by activation of cGMP-dependent protein kinase. We have used yeast two-hybrid screening to identify a 116-kDa human protein that interacts with both myosin phosphatase and RhoA. This myosin phosphatase-RhoA interacting protein, or M-RIP, is highly homologous to murine p116RIP3, is expressed in vascular smooth muscle, and is localized to actin myofilaments. M-RIP binds directly to the myosin binding subunit of myosin phosphatase in vivo in vascular smooth muscle cells by an interaction between coiled-coil and leucine zipper domains in the two proteins. An adjacent domain of M-RIP directly binds RhoA in a nucleotide-independent manner. M-RIP copurifies with RhoA and Rho kinase, colocalizes on actin stress fibers with RhoA and MBS, and is associated with Rho kinase activity in vascular smooth muscle cells. M-RIP can assemble a complex containing both RhoA and MBS, suggesting that M-RIP may play a role in myosin phosphatase regulation by RhoA.
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PMID:Myosin phosphatase-Rho interacting protein. A new member of the myosin phosphatase complex that directly binds RhoA. 1450 64

The polymorphonuclear neutrophil (PMN)-respiratory burst plays a key role in host defense and inflammatory reactions. Modulation of this key neutrophil function by endogenous agents and the mechanisms involved are poorly understood. This study was designed to analyze the mechanisms involved in the effect of adrenaline on neutrophil superoxide anions production. Using the superoxide dismutase (SOD)-inhibitable cytochrome c reduction assay, we report here that the beta-adrenergic agonist, adrenaline at physiologic concentrations (5-100 nM) inhibited formyl-methionyl-leucyl-phenylalanine (fMLP)-stimulated but not phorbol-myristate-acetate (PMA)-stimulated PMN superoxide anion production. The inhibitory effect of adrenaline runs in parallel with an increase in intracellular levels of cAMP which was reversed by the protein kinase A (PKA) inhibitor H-89, suggesting a role for PKA in mediating the inhibitory effect of adrenaline on fMLP-induced superoxide production. Adrenaline at physiological concentrations did not inhibit the fMLP-stimulated membrane translocation of the NADPH oxidase components p47phox and p67phox, nor the fMLP-stimulated phosphorylation of p47phox. However, adrenaline strongly depressed the activity of the cytosolic isoform of Phospholipase A(2) (cPLA(2)). We suggest that adrenaline inhibits fMLP induced superoxide production upstream of the NADPH oxidase via a mechanism involving PKA and cPLA(2).
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PMID:Inhibition of formyl-methionyl-leucyl-phenylalanine-stimulated respiratory burst in human neutrophils by adrenaline: inhibition of Phospholipase A2 activity but not p47phox phosphorylation and translocation. 1466 41

Agonist-stimulated desensitization of the beta2-adrenergic receptor (beta2AR) is caused by both a potent cAMP-dependent protein kinase (PKA)-mediated phosphorylation and a less potent, occupancy-dependent, G protein-coupled receptor kinase (GRK)-mediated phosphorylation that leads to beta-arrestin binding and internalization. In this study the kinetics of phosphorylation of the third intracellular loop PKA site Ser262 and the putative C-tail GRK sites Ser355, Ser356 of the human beta2AR overexpressed in human embryonic kidney (HEK) 293 cells were characterized using phosphoserine-specific antibodies. Specificity of the antibodies was shown by their lack of reactivity with mutant beta2ARs lacking the respective sites. In addition, overexpression of GRK2 and GRK5 increased basal levels of phosphorylation of the GRK sites Ser355, Ser356 in both COS-7 and HEK 293 cells. Epinephrine, prostaglandin E1, and forskolin at maximum concentrations stimulated phosphorylation of the beta2AR PKA site (Ser262) by 4-fold, whereas PMA stimulated it by 2-fold. Epinephrine stimulated PKA site phosphorylation with an EC50 of 20 to 40 pM. In contrast, epinephrine stimulated GRK site phosphorylation (Ser355,Ser356) with an EC50 of 200 nM (1-min treatments), which is more than 4000-fold higher relative to PKA site phosphorylation, consistent with an occupancy-driven process. After 10 to 30 min, the EC50 for epinephrine stimulation of GRK site phosphorylation was reduced to 10 to 20 nM but was still approximately 200-fold greater than for the PKA site. The EC50 for internalization correlated with GRK site phosphorylation and showed a similar shift with time of epinephrine stimulation. The kinetics of epinephrine-stimulated GRK site phosphorylation were not altered in a mutant of the beta2AR lacking the PKA consensus sites. The initial levels (2 min) of a range of agonist-stimulated GRK site phosphorylations were correlated with their efficacy for activation of adenylyl cyclase, namely epinephrine > or = formoterol = fenoterol > terbutaline = zinterol = albuterol > salmeterol > dobutamine > or = ephedrine. However, after 20 to 30 min of treatment, agonists with intermediate strengths, such as albuterol and salmeterol, stimulate GRK site phosphorylations that are approximately equal to that produced by epinephrine, and the correlation breaks down. The GRK and PKA site antibodies were also effective in detecting phosphorylation of the endogenous beta2AR expressed in A431 human epidermoid carcinoma cells. To summarize, our results show a remarkable amplification of PKA site phosphorylation relative to the putative GRK site phosphorylation, heterologous stimulation of the PKA site phosphorylation, no dependence of GRK site phosphorylation on PKA sites, and a reasonable correlation of initial levels of GRK site phosphorylation with the strength of a range of agonists.
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PMID:Characterization of agonist stimulation of cAMP-dependent protein kinase and G protein-coupled receptor kinase phosphorylation of the beta2-adrenergic receptor using phosphoserine-specific antibodies. 1472 51

Isoproterenol increases and decreases contractile force at low and high concentrations, respectively, through beta(2)-adrenoceptors overexpressed in transgenic mouse heart (TG4), consistent with activation of both G(s) and G(i) proteins. Using TG4 hearts, we demonstrated that epinephrine behaves like isoproterenol, but norepinephrine does not. Epinephrine both increased (-log EC(50)M = 9.4) and decreased (-log EC(50)M = 6.5) left atrial force. Pertussis toxin (PTX) abolished the negative inotropic effects of epinephrine, consistent with mediation through G(i) protein. Norepinephrine only increased contractile force (-log EC(50)M = 7.5). Norepinephrine (10-100 microM) prevented the positive inotropic effects but hardly affected the negative inotropic effects of epinephrine. Cardiodepressive epinephrine concentrations (1-10 microM) antagonized the positive inotropic effects of norepinephrine. In the free wall of TG4 right ventricle, norepinephrine and low epinephrine concentrations caused positive inotropic effects, and high epinephrine concentrations caused PTX-sensitive negative inotropic effects, as observed in the left atrium. Epinephrine (10 nM), a concentration causing maximum increase in contractile force, and norepinephrine (1 and 100 microM) increased cAMP-dependent protein kinase activity in TG4 left ventricle. Cardiodepressive concentrations of epinephrine (1 and 100 microM) did not increase cAMP-dependent protein kinase activity. The inotropic results were simulated with a model of two beta(2)-adrenoceptor sites. For one site involved in receptor coupling to G(s), both epinephrine and norepinephrine compete. The other site, recognized by epinephrine but not by norepinephrine, leads to receptor G(i) coupling.
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PMID:Epinephrine activates both Gs and Gi pathways, but norepinephrine activates only the Gs pathway through human beta2-adrenoceptors overexpressed in mouse heart. 1510 60

Effect of epinephrine on alpha-methyl-D-glucopyranoside uptake in renal proximal tubule cells. Epinephrine has known to be a very important factor in the regulation of renal sodium excretion. However, the effect of epinephrine on Na+/glucose cotransporter was not fully elucidated. Thus, we examined effect of epinephrine on alpha-methyl-D-glucopyranoside (alpha-MG) uptake and its related signal pathways in the primary cultured rabbit renal proximal tubule cells (PTCs). Epinephrine inhibited alpha-MG uptake in a time- and dose-dependent manner and also decreased SGLT1 and SGLT2 protein level. Both phentolamine and propranolol completely prevented epinephrine-induced inhibition of alpha-MG uptake. The epinephrine-induced inhibition of alpha-MG uptake was blocked by SQ-22536 or myristoylated PKA inhibitor amide 14-22 and epinephrine increased the intracellular cAMP content. In western blotting analysis, epinephrine increases phosphorylation of p44/42 and p38 MAPKs and PD 98059 or SB 203580 blocked the effect of epinephrine. In addition, epinephrine increased AA release and PGE2 production and effects of epinephrine on alpha-MG uptake and AA release were blocked by staurosporine and bisindolylmaleimide I or mepacrine and AACOCF3. Indeed, epinephrine translocated PKC or cPLA2 from cytosol to membrane fraction. In conclusion, epinephrine partially inhibits the alpha-MG uptake through PKA, PKC, p44/42, p38 MAPK, and cPLA2 pathways in the PTCs.
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PMID:Effect of epinephrine on alpha-methyl-D-glucopyranoside uptake in renal proximal tubule cells. 1531 43

Adenylyl cyclase signaling system (ACS) of the higher eukaryotes involves the following main components: receptor, heterotrimeric G protein, adenylyl cyclase (AC), and protein kinase A. At present, these components have been found in cells of different species of the lower eukaryotes. Hence, the signal transduction through ACS of unicellular eukaryotes may have some features in common with those of the higher eukaryotes. We showed earlier that agonists of adrenergic receptors (ARs) regulate AC activity of ciliates Dileptus anser and Tetrahymena pyriformis. The aim of this work was to study molecular mechanisms of AR ligand action on the functional activity of different components of ACS of the ciliates. It has been shown that beta-AR antagonist [3H]-dihydroalprenolol binds membranes of the ciliates with a comparatively lower affinity than those of the higher eukaryotes (Kd for D. anser was 13.4 nM, for T. pyriformis--27 nM). Beta-AR ligands--agonist (-)-isoproterenol and antagonists propranolol and atenolol in competition manner displace [3H]-dihydroalprenolol with IC50 that are 10-100 times higher than corresponding IC50 of beta-AR of the higher eukaryotes. In the presence of GTP, the right shift of competition curves of [3H]-dihydroalprenolol displacement by isoproterenol was obtained, being most considerable in the case of D. anser. Adrenaline and isoproterenol in a dose-dependent manner stimulated GTP-binding in cell cultures of D. anser and T. pyriformis. Suramin (10(-5) M), the inhibitor of heterotrimeric G proteins, completely blocked effects of these hormones. In D. anser culture, adrenaline and isoproterenol in a dose-dependent manner, stimulated AC activity, and its stimulating effects in the presence of beta-AR blockers vanished (propranolol) or decreased to a great extent (atenolol). At the same time the effects were unchanged in the presence of alpha2-AR antagonists yohimbine and idazoxan. These data show the involvement of G protein-coupled beta-AR in signal transduction induced by AR agonists in D. anser cells. In cell culture of T. pyriformis isoproterenol weakly stimulated AC activity, and its effect was completely blocked by beta-AR blockers. Adrenaline in T. pyriformis cells in a dose-dependent manner inhibited AC activity. Inhibiting effect of hormone was decreased in the presence of alpha2-AR blockers. On the basis of the obtained data we concluded that adrenaline in T. pyriformis cells inhibited AC activity through G protein-coupled receptor, being close to alpha2-AR of vertebrate animals.
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PMID:[Molecular mechanisms of regulatory action of adrenergic receptor agonists on functional activity of adenylyl cyclase signaling system of the ciliates Dileptus anser and Tetrahymena pyriformis]. 1534 90

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