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 effect of the activators of protein kinase A (dibutyryl-cAMP) and protein kinase C (beta-phorbolic ether), as well as cell compression, on the rate of 22Na and 86Rb, a radioactive potassium analogue, incorporation by human and rat erythrocytes was investigated. Protein kinase A and protein kinase C activation was accompanied by the activation of Na+, K+-ATP-ase in human and rat erythrocytes as well as increased Na+, K+ cotransport rate in rat erythrocytes. Human erythrocytes responded to protein kinase C activation by a 2 or 3-fold increase in Na+/Na+-antitransport rate, and both human and rat erythrocytes exhibited a manifold increase in the Na+/H+ metabolism rate. Cell compression depressed Na+, K+-ATP-ase activity and increased the rates of Na+/H+ metabolism and the frusemide-inhibited component of potassium transport, the latter two effects being particularly obvious in rat erythrocytes. It is suggested that protein kinase C activation and/or erythrocyte compression may be a direct cause of increased plasmatic membrane permeability for univalent cations in primary hypertension.
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PMID:[Univalent cation transport in human and rat erythrocytes: its regulation by protein kinase activators and compression]. 283 4

Platelets provide an accessible and homogeneous cellular system for investigative studies on hypertension. Hypertension-associated abnormalities of cyclic adenosine 3',5'-monophosphate (AMP) metabolism were studied in human platelets. Platelets from hypertensive subjects had an enhanced cyclic AMP accumulation response to prostaglandin E1 (twofold increase in prostaglandin E1 sensitivity). The degree of adenylate cyclase activation in response to both prostaglandin E1 (receptor-mediated) and forskolin (non-receptor-mediated) was greater in hypertensive than normotensive subjects, and prostaglandin E1-stimulated and forskolin-stimulated adenylate cyclase activity correlated directly (r = 0.71, p less than 0.001, n = 26). This finding suggests that the catalytic subunit of the enzyme is the rate-limiting step of this hormonal information transduction. Platelets from hypertensive subjects were more sensitive to epinephrine-induced inhibition of the stimulatory effects of prostaglandin E1 on both cyclic AMP accumulation (fourfold) and activation of cyclic AMP-dependent protein kinase. These findings suggest that the enhanced cyclic AMP metabolic response to prostaglandin E1 in platelets from subjects with established essential hypertension may function as a negative feedback mechanism to protect the cells against calcium overload and to reduce their stimulated participation in hemostatic and thrombotic processes.
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PMID:Enhanced platelet cyclic AMP response to prostaglandin E1 in essential hypertension. 301 95

The activity of protein kinase C and A was studied in the erythrocytes of patients with essential hypertension (EH) and in spontaneously hypertensive rats (SHR, Okamoto-Aoki strain). Protein kinase C activity was also studied in the erythrocytes of patients with hypertension of renal origin. Protein kinase C activity in the lysate of erythrocytes of patients with EH and in SHR was found to be increased 1.6-2.0-fold as compared to that in normotensive controls. No notable differences in protein kinase A activity were observed between hypertensive and normotensive groups. In erythrocytes of patients with renal hypertension, no notable changes in protein kinase C activity were revealed.
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PMID:Activity of protein kinase C in erythrocytes in primary hypertension. 323 34

Activities of protein kinases A and C in erythrocyte cytoplasmic fraction purified by CM-Sephadex and DEAE-cellulose have been measured. Protein kinase C activity is shown to be 1.6-1.8-fold higher, as compared to controls, in essential hypertension, but remain unchanged in renal hypertension. Protein kinase A activity is slightly elevated in patients with essential hypertension, but the difference is not significant. It is suggested that the increase of protein kinase C activity, and perhaps some other activities as well, in essential hypertension may be a result of altered expression of protooncogenes with protein kinase activities.
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PMID:[Protein kinase A and C activity of erythrocytes in patients with essential hypertension]. 341 69

In order to define the alteration of the function of the adrenergic system in hypertension, we studied directly the receptor-cyclase coupling protein (N protein), which is one of the components of the enzyme adenylate cyclase. N protein was determined in erythrocyte membranes of patients with essential hypertension and normal subjects, with a complementation assay in vitro. Fifteen normal subjects and 18 patients with essential hypertension (eight untreated and ten treated with beta-adrenoreceptor blocking drugs alone or in combination with other antihypertensive drugs), and two patients with pseudohypoparathyroidism type Ia (known to have deficient N protein activity), were studied. Erythrocyte N protein activities in the various groups expressed as percentages of the means +/- SD of normals were: normal subjects 100 + 13.7, untreated hypertensive 108.9 +/- 20.4, treated hypertensive 104.3 +/- 11.3 and pseudohypoparathyroidism type Ia 43%. The difference between N protein activity in the hypertensive patients and normals was not statistically significant. We suggest that the molecular basis for the altered sympathetic responsiveness in essential hypertension may reside in other components of the cyclic AMP protein kinase effector system.
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PMID:Receptor-cyclase coupling protein in erythrocytes of patients with essential hypertension. 614 35

Investigations in numerous laboratories have characterized a salt transport system, present in many animal cell types, which catalyzes the transmembrane transport of NaCl and KCl in a tightly coupled process. The system is inhibited by loop diuretics such as furosemide and bumetanide. This transport system has been designated the loop diuretic-sensitive NaCl/KCl symporter. It has been implicated in transepithelial salt secretion and absorption as well as in cell volume regulation, and it may be defective in patients suffering from essential hypertension. This review serves to evaluate research conducted to date regarding the mechanism, mode of regulation, and physiological significance of the transport system. Ion binding specificities and absolute binding constants for all three naturally occurring ions have been determined in one cell system, the MDCK kidney epithelial cell line. In that same cell line, substrate binding was shown to exhibit apparent cooperativity. although a few reports suggest unidirectional transport of ions via this system under certain conditions, the consensus of reports indicates fully reversible, bidirectional salt transport with the direction of net flux determined by the magnitudes of the gradients of the three transported ions. Growth of cells in media containing a low concentration of K+ (less than 0.25 mM) allows selection of mutants lacking or defective in the symporter. Kinetic analyses with the MDCK cell line have shown that the symporter catalyzes accelerative exchange transport. However, exchange transport of one ion in the absence of one of the other two ionic substrates has not been documented. Comparison with other well-characterized transmembrane transport systems has shown that the characteristics of the NaCl/KCl symporter most resemble those of two-species facilitators (chemiosmotically-coupled symporters) found in prokaryotes and eukaryotes alike. these two-species facilitators consist of a single transmembrane protein and may function by a carrier-type mechanism as originally proposed by Peter Mitchell. A molecular model for the NaCl/KCl symporter is presented and discussed. Activation of symport activity requires ATP and probably occurs by a protein kinase-catalyzed mechanism. In some cell types activation is cyclic AMP dependent. ATP hydrolysis is not stoichiometric with transport. Phosphorylation of an integral membrane protein with an apparent size of 240 000 daltons correlates with activation of transport. It is postulated that this protein is the loop diuretic-sensitive NaCl/KCl symporter.
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PMID:Mechanism, regulation and physiological significance of the loop diuretic-sensitive NaCl/KCl symport system in animal cells. 632 61

The Milan hypertensive strain of rats (MHS) develops a genetic form of renal hypertension that, when compared to its normotensive control (MNS), shows renal dysfunction similar to that of a subset of human patients with primary hypertension. MHS and MNS were shown to be homozygous by multilocus minisatellite analysis and monolocus microsatellite markers. We show here that one point mutation in each of two genes coding for the membrane skeleton protein adducin is associated with blood pressure in the Milan strain of rats. Adducin is a heterodimer formed by alpha and beta subunits that promotes the assembly of actin with spectrin. MHS and MNS differ, respectively, by the amino acids Y and F at position 316 of the alpha subunit. In the beta-adducin locus, MHS is always homozygous for R at position 529 while in MNS either R or Q occurs in that position. The R/Q heterozygotes showed lower blood pressure than any of the homozygotes. In vitro phosphorylation studies suggest that both of these amino acid substitutions occur within protein kinase recognition sites. Analysis of an F2 generation demonstrated that Y alleles segregated with a significant increment in blood pressure. This effect is modulated by the presence of the R allele of the beta subunit. Taken together, these findings strongly support a role for adducin polymorphisms in causing variation of blood pressure in the Milan strain of rats.
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PMID:Two point mutations within the adducin genes are involved in blood pressure variation. 817 Oct 25

This review focuses on the mechanisms whereby the cytosolic Ca2+ regulates the ubiquitous Na+/ H+ exchanger (NHE-1) and how these regulatory processes might modify the behavior of NHE-1 in essential hypertension. The pH setpoint for activation of the Na+/H+ exchanger is controlled by two interrelated and Ca(2+)-dependent pathways, namely, the protein kinase/ phosphatase cascade and Ca2+/calmodulin. The cytoplasmic domain of NHE-1 contains elements responsive to serine/theorine kinases and a high affinity binding site to Ca2+/calmodulin. Phosphorylation of NHE-1 or the binding of the Ca2+/calmodulin complex to its binding site promotes an alkaline shift in the pH setpoint for the exchanger. It is suggested that, in essential hypertension, an increased cellular Ca2+ load or an enhanced external Ca2+ entry stimulate the NHE-1 through protein kinase/phosphatase and Ca2+/calmodulin systems, thereby increasing its activity.
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PMID:The links between cellular Ca2+ and Na+/H+ exchange in the pathophysiology of essential hypertension. 880 85

Reduced ability or failure to stimulate cyclic adenosinemonophosphate (AMP) synthesis on a second addition of hormone 30 min after a first stimulation was taken as an indirect indication of the synthesis of the cyclic AMP antagonist prostaglandylinositol cyclic phosphate (cyclic PIP). In diabetic rats, because of an increased possibility of restimulating cyclic AMP synthesis, the formation of cyclic PIP should be reduced. Additionally, severalfold increased basal cyclic AMP synthesis can be observed in diabetic hepatocytes in comparison with controls. Upon measuring cyclic PIP levels after hormonal stimulation in all organs of diabetic rats, it was found that stimulation of cyclic PIP synthesis by insulin decreased gradually in a time-dependent manner. Plasma membranes were prepared from diabetic Ksj db/db mice and from spontaneously hypertensive rats (SHR), and in a subsequent assay for cyclic PIP synthetase, an up to 60% decrease of enzyme activity was found. Cyclic PIP synthetase can be completely inhibited by preincubation with protein kinase A. It is most likely that this serine phosphorylation reaction by which the enzyme is inhibited also in vivo is a result of increased cyclic AMP levels. The addition of 10(-5)-10(-4) M sulfonylureas to the enzyme assay of liver plasma membrane causes full inhibition, and the addition of 10(-5)-10(-4) M biguanides, a two- to fourfold activation of the enzyme. Activation of cyclic PIP synthetase by biguanides can also be demonstrated in intact cells. It is a fast reaction and additive with respect to the activation by fluoride or guanylyl-imidodiphosphate (GMP-PNP), and it is most likely the effect with which the biguanides produce the correcting changes in metabolism. Furthermore, antihypertensive drugs like captopril, guanethidine, and dihydralazine also activate cyclic PIP synthetase. In contrast to the activation by the biguanides, this effect is not additive to the activation by fluoride. It appears that essential hypertension and type 2 diabetes are connected with or may be the result of a reduction in synthesis of the intracellular messenger cyclic PIP, whose synthesis is stimulated by hormones like insulin and noradrenaline (alpha-adrenergic action).
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PMID:Insulin resistance, a result of reduced synthesis of prostaglandylinositol cyclic phosphate, a mediator of insulin action? Regulation of cyclic PIP synthetase activity by oral antidiabetic and antihypertensive drugs. 945 69

Prostaglandylinositol cyclic phosphate (cPIP), functionally a cAMP antagonist, is a novel, low-molecular weight mediator of insulin action. Both essential hypertension and type 2 diabetes may be associated with a reduction of cPIP synthesis. In intact cells and in plasma membranes, cPIP synthesis is stimulated by insulin, which activates cPIP synthase by tyrosine phosphorylation. We measured the activities of cPIP synthase in the homogenates of freeze-clamped and then lyophilized liver samples from five insulin-resistant, adult rhesus monkeys, obtained under basal fasting conditions and again under maximal insulin stimulation during a euglycemic hyperinsulinemic clamp. The mean cPIP synthase activity in basal samples (0.33 +/- 0.09 pmol/min/mg protein) was not significantly different at the end of the clamp (0.24 +/- 0.11 pmol/min/mg protein). Basal cPIP synthase activityVoL 12, No. 1, 2001 was directly related to both basal cAMP content and basal fractional activity of cAMP-dependent protein kinase (PKA): r=0.85, p<0.05 and r=0.86, p<0.05, respectively. In turn, insulin-stimulated cPIP synthase activity was inversely related to both the insulin-stimulated fractional activity of PKA (r=0.89, p<0.02) and the insulin-stimulated total PKA activity: r=0.94, p<0.005. The findings suggest that in the liver of insulin-resistant rhesus monkeys, cPIP synthase activity, which leads to the synthesis of the low-molecular weight mediator cPIP, may oppose cAMP synthesis and PKA activity.
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PMID:Prostaglandylinositol cyclic phosphate synthase activity in the liver of insulin-resistant rhesus monkeys before and after a euglycemic hyperinsulinemic clamp. 1141 4

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