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Query: EC:2.7.11.17 (
CaMKII
)
4,029
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A protein of M(r) 59,000 (p59) was recently cloned and identified as a Heat shock protein Binding Immunophilin (p59/HBI). It participates to the heterooligomeric, non-DNA binding form of steroid receptors, in association with the heat shock protein of M(r) 90,000 (hsp90). It binds the immunosuppressants
FK506
and rapamycin and possesses three FKBP-12 (
FK506
binding protein of M(r) 12,000)--like domains (I to III), plus a tail containing a putative calmodulin binding site (domain IV). Following expression in E. Coli and purification on Glutathione-Sepharose of either the full-length recombinant p59/HBI, or the recombinant FKBP-like domains, we demonstrate by autoradiography of [alpha 32P]-8-azido ATP and of [alpha 32P]-8-azido GTP photoaffinity labeled complexes, that an ATP (GTP) binding site is located in the domain II. This nucleotide binding property is also found with the highly purified rabbit uterus p59/HBI. The latter, but not the recombinant protein, can be phosphorylated in vitro in the presence of Mn++ and/or of Ca++/Calmodulin in an ATP but not GTP dependent manner, suggesting copurification of a
CaM kinase II
-like enzyme. Thus it appears that p59/HBI is a multifunctional immunophilin which may be at the crossroad of the endocrine and immunological systems.
...
PMID:The mammalian heat shock protein binding immunophilin (p59/HBI) is an ATP and GTP binding protein. 837
A permeable cell system in which Ca2+ release can be evoked by inositol 1,4,5-trisphosphate (IP3) or agonist stimulation was used to study the regulation of Ca2+ release by Ca2+ itself. At low concentrations, Ca2+ activated IP3-mediated Ca2+ release (IMCR) with half-maximal effect at about 15 nM. At high concentrations, Ca2+ inhibited IMCR giving rise to a biphasic [Ca2+] dependence of IMCR. The activation of IMCR by Ca2+ appears to be mediated by a kinase, probably the Ca(2+)-and calmodulin-dependent protein kinase (
CaMKII
). Thus, the activation required MgATP, completely blocked at 0 degrees C, required Ca2+, and was inhibited by the
CaMKII
inhibitors KT5926 and KN62. The inhibition of IMCR seems to be mediated by a protein phosphatase, probably the Ca(2+)-dependent protein phosphatase 2B. Hence, the inhibition required Ca2+, was prevented by the general protein phosphatase inhibitor pyrophosphate and by the immunosuppressants cyclosporin A and
FK506
, but not by okadaic acid or VO4(2-), and was modified by chelating agents such as EGTA. Stimulation with agonists modified the activities of the kinase and phosphatase to make the release independent of [Ca2+]. This appears to be due to an increase in the apparent affinity for Ca2+ in stimulating IMCR and inhibition of the phosphatase. We suggest that agonist-dependent modification of the kinase/phosphatase activity ratio can be the biochemical pathway responsible for regulation of Ca2+ release and in turn [Ca2+]i oscillations.
...
PMID:Ca(2+)-dependent kinase and phosphatase control inositol 1,4,5-trisphosphate-mediated Ca2+ release. Modification by agonist stimulation. 838 79
We investigated the regulation by intracellular Ca2+ of agonist-induced sequestration of Gq protein-coupled histamine H1 receptors in human U373 MG astrocytoma cells. Histamine-induced sequestration of H1 receptors from the cell surface membrane was detected as the loss of [3H]mepyramine binding sites on intact cells accessible to the hydrophilic H1-receptor antagonist pirdonium. The changes in the pirdonium-sensitive binding of [3H]mepyramine were mirrored by changes in the subcellular distribution of H1 receptors detected by sucrose density gradient centrifugation. The histamine-induced sequestration of H1 receptors did not occur in hypertonic medium, in which clathrin-mediated endocytosis is known to be inhibited, but was significantly accelerated in the absence of extracellular Ca2+ or in the presence of the calmodulin antagonists W-7 and calmidazolium. Inhibitors of protein kinase C (H-7 and GF109203X),
Ca2+/calmodulin-dependent protein kinase II
(KN-62), or protein phosphatase 2B (
FK506
) did not alter the time course of H1-receptor sequestration. These results provide the first evidence that agonist-induced, clathrin-mediated sequestration of Gq protein-coupled receptors is transiently inhibited by Ca2+/calmodulin, with the result that receptors remain on the cell surface membrane during the early stage of agonist stimulation.
...
PMID:Ca2+/calmodulin-mediated regulation of agonist-induced sequestration of Gq protein-coupled histamine H1 receptors in human U373 MG astrocytoma cells. 983 64
Much has been discovered studying sarcoplasmic reticulum (SR) Ca release channels in SR vesicles and lipid bilayers. We have focused on how SR Ca release is regulated in intact mammalian ventricular myocytes, using fluorescent Ca indicators, voltage clamp, and confocal microscopy. Three major factors appear to contribute to the probability of spontaneous localized SR Ca release events (or Ca "sparks") in resting myocytes: (1) cytosolic [Ca], (2) SR Ca content, and (3) time after previous activity (i.e., recovery from adapted or inactivated state). These same three factors function during excitation-contraction (E-C) coupling and can explain rest potentiation of twitches, increased fractional SR Ca release at higher SR Ca loads, and Ca overload. Since SR Ca release is sensitive to both ICa and SR Ca load, we have controlled (and measured) these parameters. At constant SR Ca load and ICa in intact cells we have found that SR Ca release is increased by Ca-calmodulin-dependent protein kinase (
CaMKII
) and
FK506
(which may interfere with the interaction between the Ca release channel and the FK binding protein) and is reduced by the Ca channel agonist Bay K 8644,
CaMKII
inhibitors, and during ventricular hypertrophy. Thus the regulation of the SR Ca release channel in the intact cell is an important factor in cellular cardiac function.
...
PMID:Factors that control sarcoplasmic reticulum calcium release in intact ventricular myocytes. 1060 44
We investigated Ca(2+)/calmodulin (CaM)-mediated regulation of the desensitizing process of the histamine H(1) receptor-mediated increase in intracellular Ca(2+) concentration in human U373 MG astrocytoma cells. The desensitizing process was evaluated by measuring the histamine-induced Ca(2+) responses in cells pretreated with histamine for 15 s-30 min under various conditions. Under normal physiological conditions, desensitization developed with three successive phases : a fast desensitization within 15 s, a transient resensitization at 45 s, and a prompt and sustained redesensitization from 1 to 30 min. Similar processes of desensitization/resensitization occurred even under hypertonic conditions, where histamine-mediated internalization of the histamine H(1) receptor is inhibited. The transient resensitization phase was selectively prevented by deprivation of extracellular Ca(2+) and, even more strikingly, by the presence of W-7 (a CaM antagonist).
FK506
and cyclosporin A, Ca(2+)/CaM-dependent protein phosphatase (PP2B) inhibitors, mimicked such effects. In the presence of KN-62, a Ca(2+)/CaM-dependent protein kinase II (
CaM kinase II
) inhibitor, the early development of desensitization disappeared, allowing a slow and simple development of desensitization. The early processes of desensitization and resensitization were unaffected by W-5, okadaic acid, and KN-04 (less potent inhibitors against CaM, PP2B, and
CaM kinase II
, respectively) or by GF109203X and chelerythrine (protein kinase C inhibitors). The high-affinity site for histamine was converted to a lower-affinity site by histamine treatment, which also showed a transient restoration phase at 45 s in a manner sensitive to KN-62 and
FK506
. These results provide the first evidence that Ca(2+)/CaM plays a crucial role in determining the early phase of the desensitizing process via activation of
CaM kinase II
and PP2B, by regulating agonist affinity for histamine H(1) receptors.
...
PMID:Ca(2+)/calmodulin-mediated regulation of the desensitizing process in G(q) protein-coupled histamine H(1) receptor-mediated Ca(2+) responses in human U373 MG astrocytoma cells. 1089 54
We recently reported that leukemia inhibitory factor (LIF) enhances Ca(2+)](i) through an increase in L-type Ca(2+) current (I(Ca,L)) in adult cardiomyocytes. The aim of this study was to investigate whether LIF activates Ca(2+)-dependent signaling molecules, such as calcineurin and calmodulin kinases II and IV (
CaMKII
and
CaMKIV
), and, if so, whether these Ca(2+)-mediated signaling events contribute to LIF-mediated cardiac hypertrophy. We first confirmed that LIF increased I(Ca,L) and [Ca(2+)](i) in primary cultured rat neonatal cardiomyocytes. Calcineurin,
CaMKII
, and
CaMKIV
activities increased at 2 minutes and peaked by 1.6-, 2.2-, and 2.2-fold, respectively, at 15 minutes. Nicardipine or verapamil fully inhibited these activities. Autophosphorylation of
CaMKII
was also observed to parallel the timing of
CaMKII
activity, and this phosphorylation was blocked by nicardipine, verapamil, or EGTA. LIF treatment led to a 3-fold increase in nuclear factor of activated T cell-luciferase activity. To confirm that inositol triphosphate (IP(3))-induced Ca(2+) release from sarcoplasmic reticulum was not involved in this process, IP(3) content and phosphorylation of phospholipase Cgamma were investigated. LIF did not increase IP(3) content or phosphorylate phospholipase Cgamma. KN62 (an inhibitor of
CaMKII
and
CaMKIV
) attenuated c-fos, brain natriuretic peptide, alpha-skeletal actin, and atrial natriuretic peptide expression. KN62 suppressed the LIF-induced increase in [(3)H]phenylalanine uptake and cell size. Cyclosporin A and
FK506
slightly attenuated brain natriuretic peptide but did not affect c-fos or atrial natriuretic peptide expression. Cyclosporin A significantly reduced the LIF-induced increase in [(3)H]phenylalanine uptake. These findings indicated that LIF activated
CaMKII
,
CaMKIV
, and calcineurin through an increase in I:(Ca,L) and [Ca(2+)](i) and that
CaMKII
,
CaMKIV
, and calcineurin are critically involved in LIF-induced cardiac hypertrophy.
...
PMID:Calmodulin kinases II and IV and calcineurin are involved in leukemia inhibitory factor-induced cardiac hypertrophy in rats. 1107 91
To explore effects of Immunosuppressant
FK506
on signal transduction pathway. we studied changes in subcellular distribution of protein kinase Cgamma (PKCgamma),
CaM kinase II
(
CaMKII
), as well as changes of tyrosine phosphorylation levels after ischemia. Male Mongolian gerbils were divided into 3 groups;
FK506
(1 mg/kg, 3 mg/kg) and vehicle.
FK506
was administered intravenously after 5 min ischemia. At the designated time points (0 time, 5 min ischemia, 1 hour, or 24 hour recovery), heads were frozen and samples were taken from CAI subfield of hippocampus. Western blot analysis was carried out with specific antibodies for PKCgamma,
CaMKII
, and phosphotyrosine.
FK506
administration significantly decreased translocation of PKCgamma and
CaMKII
at 24 h of recovery (p < 0.05, ANOVA followed by Student-Newman Keuls' test) in P2 fraction. The levels of tyrosine phosphorylated p160, p140, p100, p90, and p80 in P2 fraction were also significantly decreased with
FK506
treatment at 24 h of recovery. The persistently elevated PKCgamma and
CaMKII
level in P2 fraction which may be related to cell death, are attenuated with
FK506
treatment.
FK506
may contribute to recover calcium homeostasis in the post ischemic phase and promote cell survival.
...
PMID:FK506 attenuates the post-ischemic perturbation of protein kinases and tyrosine phosphorylation in the gerbil hippocampal CA1 sectors. 1475 17
In the developing cerebellum, switching of subunit composition of NMDA receptors occurs in granule cells from NR2B subunit-containing receptors to NR2C subunit-containing receptors. This switching of subunit composition plays an important role in the establishment of functional mossy fiber-granule cell synaptic transmission in the mature cerebellar network. The mechanism underlying NR2C upregulation in developing granule cells, however, has to date remained to be determined. In granule cells cultured in low (5 mm) KCl, brain-derived neurotrophic factor (BDNF) upregulated NR2C mRNA via the TrkB-extracellular signal-regulated kinase (ERK) 1/2 cascade and promoted the formation of an NR2C-containing NMDA receptor complex. In granule cells cultured in high (25 mm) KCl, depolarization stimulated voltage-sensitive Ca2+ channels. The resultant increase in intracellular Ca2+ activated Ca2+/calmodulin-dependent calcineurin phosphatase and blocked NR2C mRNA upregulation. Interestingly, the depolarization-induced Ca2+ increase simultaneously upregulated BDNF mRNA via
Ca2+/calmodulin-dependent protein kinase
(CaMK). Consequently, when calcineurin was inhibited by its inhibitor
FK506
under the depolarizing condition, the CaMK-mediated increase in BDNF became a stimulatory signal, and the endogenous BDNF autocrine system was capable of upregulating NR2C mRNA via the common TrkB-ERK cascade. The importance of the BDNF-TrkB pathway was further supported by a significant reduction in NR2C in normally migrated granule cells of TrkB(-/-) knock-out mice in vivo. The convergent mechanism of the BDNF and Ca2+ signaling cascades thus plays an important regulatory role in NR2C induction in granule cells during cerebellar development.
...
PMID:Neuronal depolarization controls brain-derived neurotrophic factor-induced upregulation of NR2C NMDA receptor via calcineurin signaling. 1622 64
Synaptic plasticity following NMDA application on hippocampal slices from young (3-5 months) and aged (24-27 months) rats was compared. In young rats, NMDA (20 microM) induced opposite effects depending on the duration of the application. A short (1 min) or long (5 min) application induced a long-term depression of synaptic activity while a 3 min application induced a potentiation. In aged rats, however, NMDA application always induced depression, regardless of the duration. To identify mechanisms which could explain the difference observed between young and aged rats, we explored changes in NMDA receptor activation and changes in kinase/phosphatase balance. We first demonstrate that the potentiation present in slices from young rats was not restored in aged rats by exogenous application of the co-agonist of NMDA receptor d-serine (which compensates for the changes in NMDAR activation seen in aged rats). This suggested that alterations in synaptic plasticity activation mainly involve intracellular mechanisms. We next showed that the participation of the kinases PKA and
CaMKII
in the NMDA-induced potentiation in young rats is negligible. Finally, we determined the consequences of phosphatase inhibition in aged rats. Incubation of slices in okadaic acid (a PP1/PP2B antagonist) did not affect the depression induced by a 3min NMDA application in aged rats. The PP2B antagonist
FK506
restored potentiation in aged rats (3 min NMDA application). In hippocampal neurons from aged rats, a depression is always observed, suggesting a preferential activation of PP2B by NMDA in these neurons.
...
PMID:A role for the protein phosphatase 2B in altered hippocampal synaptic plasticity in the aged rat. 1644 85
Studies on animal models of epilepsy and cerebellar ataxia, e.g., stargazer mice (stg) have identified changes in the GABAergic properties of neurones associated with the affected brain loci. Whether these changes contribute to or constitute homeostatic adaptations to a state of altered neuronal excitability is as yet unknown. Using cultured cerebellar granule neurones from control [+/+; alpha-amino-3-hydroxyl-5-methyl-4-isoxazolepropionate receptor (AMPAR)-competent, Kainate receptor (KAR)-competent] and stg (AMPAR-incompetent, KAR-competent), we investigated whether non-NMDA receptor (NMDAR) activity regulates GABA(A) receptor (GABAR) expression. Neurones were maintained in 5 mmol/L KCl-containing basal media or depolarizing media containing either 25 mmol/L KCl or the non-NMDAR agonist kainic acid (KA) (100 micromol/L). KCl- and KA-mediated depolarization down-regulated GABAR alpha1, alpha6 and beta2, but up-regulated alpha4, beta3 and delta subunits in +/+ neurones. The KCl-evoked but not KA-evoked effects were reciprocated in stg neurones compatible with AMPAR-regulation of GABAR expression. Conversely, GABAR gamma2 expression was insensitive to KCl-mediated depolarization, but was down-regulated by KA-treatment in a 6-cyano-7-nitroquinoxaline-2,3-dione (CNQX)-reversible manner in +/+ and stg neurones compatible with a KAR-mediated response. KA-mediated up-regulation of GABAR alpha4, beta3 and delta was inhibited by L-type voltage-gated calcium channel (L-VGCC) blockers and the
Ca2+/calmodulin-dependent protein kinase
inhibitor, 4-[(2S)-2-[(5-isoquinolinylsulfonyl)methylamino]-3-oxo-3-(4-phenyl-1-piperazinyl)propyl] phenyl isoquinoline sulfonic acid ester (KN-62). Up-regulation of GABAR alpha4 and beta3 was also prevented by calcineurin (CaN) inhibitors,
FK506
and cyclosporin A. Down-regulation of GABAR alpha1, alpha6 and beta2 was independent of L-VGCC activity, but was prevented by inhibitors of CaN. Thus, we provide evidence that a KAR-mediated and at least three mutually exclusive AMPAR-mediated signalling mechanisms regulate neuronal GABAR expression.
...
PMID:AMPA and kainate receptors mediate mutually exclusive effects on GABA(A) receptor expression in cultured mouse cerebellar granule neurones. 1798 25
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