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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)
By differential screening of a Xenopus laevis egg cDNA library, we have isolated a 2,111 bp cDNA which corresponds to a maternal mRNA specifically deadenylated after fertilisation. This cDNA, called Eg2, encodes a 407 amino acid
protein kinase
. The pEg2 sequence shows significant identity with members of a new
protein kinase
sub-family which includes Aurora from Drosophila and Ipl1 (increase in ploidy-1) from budding yeast, enzymes involved in centrosome migration and chromosome segregation, respectively. A single 46 kDa polypeptide, which corresponds to the deduced molecular mass of pEg2, is immunodetected in Xenopus oocyte and egg extracts, as well as in lysates of Xenopus
XL2
cultured cells. In
XL2
cells, pEg2 is immunodetected only in S, G2 and M phases of the cell cycle, where it always localises to the centrosomal region of the cell. In addition, pEg2 'invades' the microtubules at the poles of the mitotic spindle in metaphase and anaphase. Immunoelectron microscopy experiments show that pEg2 is located precisely around the pericentriolar material in prophase and on the spindle microtubules in anaphase. We also demonstrate that pEg2 binds directly to taxol stabilised microtubules in vitro. In addition, we show that the presence of microtubules during mitosis is not necessary for an association between pEg2 and the centrosome. Finally we show that a catalytically inactive pEg2 kinase stops the assembly of bipolar mitotic spindles in Xenopus egg extracts.
...
PMID:The Xenopus protein kinase pEg2 associates with the centrosome in a cell cycle-dependent manner, binds to the spindle microtubules and is involved in bipolar mitotic spindle assembly. 945 30
Heterotrimeric G protein-coupled receptors can activate the mitogen-activated protein kinase (MAPK) cascade. Recent studies using pharmacological inhibitors or dominant-negative mutants of signaling molecules have advanced our understanding of the pathways from G protein-coupled receptors to MAPK. However, molecular genetic analysis of these pathways is inadequate in mammalian cells. Here, using the well characterized
Gsalpha
- and
protein kinase A
-deficient S49 mouse lymphoma cells, we provide the molecular genetic evidence that
Gsalpha
is responsible for transducing the beta-adrenergic receptor signal to MAPK in a
protein kinase A
-dependent pathway involving Rap1 and Raf (but not Ras) molecules.
...
PMID:Analysis of the Gs/mitogen-activated protein kinase pathway in mutant S49 cells. 960 67
The alpha subunit of the stimulatory heterotrimeric G protein (
Gsalpha
) is critical for the beta-adrenergic receptor activation of the cAMP messenger system. The role of
Gsalpha
in regulating cardiac Ca2+ channel activity, however, remains controversial. Cultured neonatal cardiac myocytes from transgenic mice overexpressing cardiac
Gsalpha
were used to assess the role of
Gsalpha
on the whole-cell Ca2+ currents (ICa). Cardiac myocytes from transgenic mice had a 490% higher peak ICa compared with those of either wild-type controls or
Gsalpha
-nonexpressing littermates. The effect of
Gsalpha
overexpression was mimicked by intracellular dialysis of wild-type cardiac myocytes with GTPgammaS-activated
Gsalpha
. This effect was not mediated by
protein kinase A
activation as intracellular perfusion with a
protein kinase A
inhibitor rendered the same degree of activation in either transgenic or wild-type myocytes also dialyzed with activated
Gsalpha
. The data indicate that
Gsalpha
overexpression is associated with a constitutive enhancement of ICa which is independent of the cAMP pathway and activation of endogenous adenylyl cyclase.
...
PMID:Cardiac Gsalpha overexpression enhances L-type calcium channels through an adenylyl cyclase independent pathway. 968 39
1. Adenosine has been shown to decrease Ca2+ current (ICa) and attenuate the hypoxia-induced enhancement of intracellular free Ca2+ ([Ca2+]i) in oxygen-sensitive rat phaeochromocytoma (PC12) cells. These effects are mediated via the adenosine A2A receptor and
protein kinase A
(
PKA
). The current study was undertaken to determine the effects of adenosine on Ca2+ current and hypoxia-induced change in [Ca2+]i during chronic hypoxia. 2. Whole cell patch-clamp studies revealed that the effect of adenosine on ICa was significantly reduced when PC12 cells were exposed to hypoxia (10 % O2) for 24 and 48 h. 3. Ca2+ imaging studies using fura-2 revealed that the anoxia-induced increase in [Ca2+]i was significantly enhanced when PC12 cells were exposed to 10 % O2 for up to 48 h. In contrast, the inhibitory effects of adenosine on anoxia-induced elevation of [Ca2+]i was significantly blunted in PC12 cells exposed to hypoxia for 48 h. 4. Northern blot analysis revealed that mRNA for the A2A receptor, which is the only adenosine receptor subtype expressed in PC12 cells, was significantly upregulated by hypoxia. Radioligand binding analysis with [3H]CGS21680, a selective A2A receptor ligand, showed that the number of adenosine A2A receptor binding sites was similarly increased during exposure to 10% O2 for 48 h. 5.
PKA
enzyme activity was significantly inhibited when PC12 cells were exposed to 10% O2 for 24 and 48 h. However, we found that hypoxia failed to induce change in adenosine- and forskolin-stimulated adenylate cyclase enzyme activity. Chronic hypoxia also did not alter the immunoreactivity level of the G protein
Gsalpha
, an effector of the A2 signalling pathway. 6. Whole cell patch-clamp analysis showed that the effect of 8-bromo-cAMP, an activator of
PKA
, on ICa was significantly attenuated during 48 h exposure to 10% O2.7. We conclude therefore that the reduced effect of adenosine on ICa and [Ca2+]i in PC12 cells exposed to chronic hypoxia is due to hypoxia-induced downregulation of
PKA
. This mechanism may serve to reduce the negative feedback on ICa and [Ca2+]i by adenosine and therefore maintain enhanced membrane excitability of PC12 cells during long-term hypoxia.
...
PMID:Chronic hypoxia reduces adenosine A2A receptor-mediated inhibition of calcium current in rat PC12 cells via downregulation of protein kinase A. 976 26
1. We examined the effects of noradrenaline on steady-state intracellular pH (pHi) and the recovery of pHi from internal acid loads imposed by the NH4+ prepulse technique in hippocampal CA1 neurones acutely dissociated from adult rats. 2. Under nominally HCO3--free conditions, acid extrusion was accomplished by a Na+-dependent mechanism, probably the amiloride-insensitive variant of the Na+-H+ exchanger previously characterized in both fetal and adult rat hippocampal neurones. In the presence of external HCO3-, acid extrusion appeared to be supplemented by a Na+-dependent HCO3--Cl- exchanger, the activity of which was dependent upon the absolute level of pHi. 3. Noradrenaline evoked a concentration-dependent and sustained rise in steady-state pHi and increased rates of pHi recovery from imposed intracellular acid loads. The effects of noradrenaline were not dependent upon the presence of external HCO3- but were blocked by substituting external Na+ with N-methyl-D-glucamine, suggesting that noradrenaline acts to increase steady-state pHi by increasing the activity of the Na+-H+ exchanger. 4. The effects of noradrenaline on steady-state pHi and on rates of pHi recovery from imposed acid loads were mimicked by beta1- and beta2-, but not alpha-, adrenoceptor agonists. The beta-adrenoceptor antagonist propranolol blocked the ability of noradrenaline to increase both steady-state pHi and rates of pHi recovery from acid loads. 5. The effects of noradrenaline on steady-state pHi and on pHi recovery rates following acid loads were not dependent on changes in [Ca2+]i. However, the effects of noradrenaline were blocked by pre-treatment with the adenylate cyclase inhibitor 2',5'-dideoxyadenosine and the
cAMP-dependent protein kinase
inhibitors Rp-adenosine-3',5'-cyclic monophosphorothioate (sodium salt; Rp-cAMPS) and N-[2-(p-bromocinnamylamino)ethyl]-5-isoquinolinesulphonamide (H-89). 6. Forskolin, an activator of endogenous adenylate cyclase, and 3-isobutyl-1-methylxanthine, a phosphodiesterase inhibitor, mimicked the ability of noradrenaline to increase both steady-state pHi and rates of pHi recovery from imposed acid loads, as did Sp-cAMPS, a selective activator of
cAMP-dependent protein kinase
. The effect of forskolin on steady-state pHi was blocked by pre-treatment with Rp-cAMPS whereas the effect of Sp-cAMPS was enhanced by pre-treatment with the protein phosphatase inhibitor, okadaic acid. 7. Noradrenaline also increased steady-state pHi and rates of pHi recovery from imposed acid loads in cultured postnatal rat hippocampal neurones. In this preparation, the effects of noradrenaline were occluded by 18-24 h pre-treatment with cholera toxin. 8. We conclude that noradrenaline increases the activity of the Na+-H+ exchanger in rat hippocampal neurones, probably by inducing an alkaline shift in the pHi dependence of the antiport, thereby raising steady-state pHi. The effects of noradrenaline are mediated by beta-adrenoceptors via a pathway which involves the alpha-subunit of the stimulatory G-protein Gs (
Gsalpha
), adenylate cyclase, cAMP and the subsequent activation of
cAMP-dependent protein kinase
which, in turn, may phosphorylate the exchange mechanism.
...
PMID:Effects of noradrenaline on intracellular pH in acutely dissociated adult rat hippocampal CA1 neurones. 976 38
The low-density-lipoprotein-receptor-related protein (LRP) binds and internalizes numerous ligands, including lipoproteins, proteinase-inhibitor complexes and others. We have shown previously that LRP-mediated ligand internalization is dependent on
cAMP-dependent protein kinase
(
PKA
) activity. Here, we investigated whether ligation of LRP increases the intracellular cAMP level and
PKA
activity via a stimulatory GTP-binding protein. Treatment of LRP-expressing cell lines with the LRP ligands lactoferrin or urokinase-type plasminogen activator caused a significant elevation in cAMP and stimulated
PKA
activity in a dose-dependent manner. Addition of the 39 kDa receptor-associated protein (RAP), an antagonist for ligand interactions with LRP, blocked the lactoferrin-induced increase in
PKA
activity, demonstrating a requirement for ligand binding to LRP. Incubation of cell membrane fractions with lactoferrin increased GTPase activity in a time- and dose-dependent manner, and treatment with LRP ligands suppressed cholera-toxin-mediated ADP-ribosylation of the
Gsalpha
subunit of a heterotrimeric G-protein. Affinity precipitation of LRP with RAP resulted in co-precipitation of two isoforms of
Gsalpha
from detergent extracts. We thus conclude that LRP is a signalling receptor that associates directly with a stimulatory heterotrimeric G-protein and activates a downstream
PKA
-dependent pathway.
...
PMID:Low-density-lipoprotein-receptor-related protein (LRP) interacts with a GTP-binding protein. 982 Aug 15
Ethanol impairs hormone-stimulated cAMP production in a number of cell types, yet the effects of ethanol on downstream responses mediated by
cAMP-dependent protein kinase
(
PKA
) are not understood. Here we have investigated the effects of ethanol feeding on cAMP-mediated inhibition of tumor necrosis factor-alpha (TNF-alpha) synthesis in rat Kupffer cells. Male Wistar rats were fed liquid diets containing 36% of calories as ethanol for 4 wk or were pair fed a control diet. Stimulation of cAMP production by the adenosine A2 receptor agonist 5'-(N-ethylcarboxamido)-adenosine (NECA), prostaglandin E2, or forskolin was decreased to 25% of control values in Kupffer cells isolated from ethanol-fed rats. This decrease was associated with a reduction in the quantity of immunoreactive
Gsalpha
protein in ethanol-fed rats, with no changes observed in Gialpha or Gbeta. TNF-alpha production was higher in ethanol-fed rats in response to stimulation with lipopolysaccharide or latex beads. Despite the profound reduction in the ability of hormone to increase cAMP production, NECA and prostaglandin E2 inhibited TNF-alpha production to an equivalent degree in Kupffer cells from ethanol- and pair-fed rats. Total activity and immuoreactive protein quantity of
PKA
did not differ between groups. Activation of
PKA
in response to a 15-min treatment with 1 microM NECA was reduced by 50% in ethanol-fed rats compared with control. Despite this reduction in activation, translocation of the catalytic subunit of
PKA
to the nucleus and phosphorylation of cAMP response element binding protein in response to activation were observed in Kupffer cells from both ethanol- and pair-fed rats. These data demonstrate that there is a dissociation between ethanol-induced desensitization of hormone-stimulated cAMP production in rat Kupffer cells and the downstream inhibition of TNF-alpha production mediated by cAMP.
...
PMID:Ethanol dissociates hormone-stimulated cAMP production from inhibition of TNF-alpha production in rat Kupffer cells. 988 84
We investigated the mechanisms responsible for altered contractile and relaxation function in overexpressed
Gsalpha
myocytes. Although baseline contractile function (percent contraction) in
Gsalpha
mice was similar to that of wild-type (WT) mice, left ventricular myocyte contraction, fura-2 Ca2+transients, and Ca2+ channel currents (ICa) were greater in
Gsalpha
mice in response to 10(-8) M isoproterenol (ISO) compared with WT mice. The late phase of relaxation of the isolated myocytes and fura-2 Ca2+ transients was accelerated at baseline in
Gsalpha
but did not increase further with ISO. In vivo measurements using echocardiography also demonstrated enhanced relaxation at baseline in
Gsalpha
mice. Forskolin and CaCl2 increased contraction similarly in WT and
Gsalpha
mice. Rp-cAMP, an inhibitor of
protein kinase
, blocked the increases in contractile response and Ca2+ currents to ISO in WT and to forskolin in both WT and
Gsalpha
. It also blocked the accelerated relaxation in
Gsalpha
at baseline but not the contractile response to ISO in
Gsalpha
myocytes. Baseline measurements of cAMP and phospholambation phosphorylation were enhanced in
Gsalpha
compared with WT. These data indicate that overexpression of
Gsalpha
accelerates relaxation at end diastolic but does not affect baseline systolic function in isolated myocytes. However, the enhanced responses to sympathetic stimulation partly reflect increased Ca2+ channel activity; i.e the cellular mechanisms mediating these effects appear to involve a cAMP-independent as well as a cAMP-dependent pathway.
...
PMID:Differential regulation of inotropy and lusitropy in overexpressed Gsalpha myocytes through cAMP and Ca2+ channel pathways. 1019 82
The cAMP-signaling pathway is composed of multiple components ranging from receptors, G proteins, and adenylyl cyclase to
protein kinase A
. A common view of the molecular interaction between them is that these molecules are disseminated on the plasma lipid membrane and random collide with each other to transmit signals. A limitation to this idea, however, is that a signaling cascade involving multiple components may not occur rapidly. Caveolae and their principal component, caveolin, have been implicated in transmembrane signaling, particularly in G protein-coupled signaling. We examined whether caveolin interacts with adenylyl cyclase, the membrane-bound enzyme that catalyzes the conversion of ATP to cAMP. When overexpressed in insect cells, types III, IV, and V adenylyl cyclase were localized in caveolin-enriched membrane fractions. Caveolin was coimmunoprecipitated with adenylyl cyclase in tissue homogenates and copurified with a polyhistidine-tagged form of adenylyl cyclase by Ninitrilotriacetic acid resin chromatography in insect cells, suggesting the colocalization of adenylyl cyclase and caveolin in the same microdomain. Further, the regulatory subunit of
protein kinase A
(RIIalpha, but not RIalpha) was also enriched in the same fraction as caveolin.
Gsalpha
was found in both caveolin-enriched and non-caveolin-enriched membrane fractions. Our data suggest that the cAMP-signaling cascade occurs within a restricted microdomain of the plasma membrane in a highly organized manner.
...
PMID:Compartmentation of cyclic adenosine 3',5'-monophosphate signaling in caveolae. 1040 58
1. Chronic selective beta1-adrenoceptor (beta1AR) blocker treatment enhances the sensitivity of beta2-adrenoceptor (beta2AR) in human heart (Hall et al., 1990; 1991). To clarify the mechanism of the cross-sensitization between beta1AR and beta2AR, we determined whether the stimulatory G-protein (G(s)alpha) function is increased in atria from beta1AR-blocker treated patients compared with non-beta-blocked patients, and investigated whether this change is caused by an alteration of post-translational modification of
Gsalpha
protein. 2. G(s)alpha function was determined by reconstitution of human atrial G(s)alpha into S49 cyc- cell membranes. In the reconstitution system, GTPgammaS stimulated cyclic AMP generation in a dose-dependent manner. Upon 10(-4) M GTPgammaS stimulation, G(s)alpha activity in the beta1AR-blocker, atenolol, treated group (78.2+/-10. 3 pmol cyclic AMP mg(-1) min(-1) 10(-3)) was 65% higher than that in non-beta-blocked patients (47.3+/-6.3 pmol cyclic AMP mg(-1) min(-1) 10(-3), n=15, P=0.02). 3. Isoelectric point (pI) valu G(s)alpha were measured by two dimensional gel electrophoresis (2D-E) and the amount of each isoform quantified by image analysis of a Western blot of the gel using specific antibody. Multiple isoforms of G(s)alpha were detected by 2D-E with different pI values. There were no significant differences between the groups of patients in either pI values or the proportions of the acidic isoforms of G(s)alpha to the main basic form (n=12, P>0.05). 4. The results suggest that chronic beta1AR-blockade enhances
Gsalpha
function in human atrium, and this may account in part for the hypersensitivity of beta2AR and other Gs-coupled receptors during beta1AR-blockade. The increased G(s)alpha function is unlikely to be caused directly by blockade of
protein kinase A
phosphorylation of G(s)alpha protein.
...
PMID:Selective beta1-adrenoceptor blockade enhances the activity of the stimulatory G-protein in human atrial myocardium. 1049 44
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