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Query: EC:2.7.11.31 (
AMP-activated protein kinase
)
13,065
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
AICAR (5-amino-1-beta-D: -ribofuranosyl-imidazole-4-carboxamide) is an adenosine analog which improves the recovery of the heart after ischemia. In some tissues AICAR enters cells and stimulates
AMP-activated protein kinase
(
AMPK
). We explored the mechanism of cardioprotection in isolated rat hearts. We confirmed that AICAR (0.5 mM) applied 10 min prior to a 30-min period of ischemia and present throughout ischemia and reperfusion caused a substantial improvement in the recovery of developed pressure on reperfusion. However, adenosine (100 microM) produced no improvement, suggesting that the mechanism of action of AICAR was not increased endogenous adenosine production. Measurements of intracellular sodium concentration ([Na(+)](i)) showed that AICAR prevented the rapid rise of [Na(+)](i), which normally occurs on reperfusion. Inhibitors of the cardiac sodium-hydrogen exchanger (
NHE1
) also protect the heart from ischemic damage and also prevent the rapid rise of [Na(+)](i) on reperfusion, suggesting that AICAR might cause the inhibition of
NHE1
. We tested this possibility on isolated rat ventricular myocytes in which the recovery of pH(i) after NH(4)Cl exposure provides a measure of
NHE1
activity. AICAR (0.5 micromM) inhibited
NHE1
activity in response to an acid load by about 80%. To test whether the AICAR-induced inhibition of
NHE1
arose through adenosine, we used the adenosine receptor blocker 8-sulfophenyltheophylline (8-SPT) and found that it had no measureable effect. To test whether the AICAR-induced inhibition of
NHE1
might occur through the activation of
AMPK
, we measured the activity of two isoforms of
AMPK
. Surprisingly, activity was reduced, whereas in many other tissues AICAR increases
AMPK
activity. Furthermore, this effect of
AMPK
was blocked by 8-SPT, suggesting that the inhibition of
AMPK
arose through an adenosine-receptor-related pathway. We conclude that AICAR inhibits
NHE1
through an unidentified pathway. This inhibition may make a contribution to the cardioprotective effects of AICAR.
...
PMID:AICAR inhibits the Na+/H+ exchanger in rat hearts--possible contribution to cardioprotection. 1698 58
AMP-activated protein kinase
(
AMPK
) is an energy-sensing enzyme that is activated by an increased AMP/ATP ratio.
AMPK
is now well recognized to induce glucose uptake in skeletal muscle and heart. 5-Aminoimidazole-4-carboxamide-1-beta-d-ribofuranoside (AICAR) is phosphorylated to form the AMP analog ZMP, which activates
AMPK
. Its effects on glucose transport appear to be tissue specific. The purpose of our study was to examine the effect of AICAR on insulin-induced glucose uptake in adult rat ventricular cardiomyocytes. We studied isolated adult rat ventricular cardiomyocytes treated or not with the
AMPK
activators AICAR and metformin and, subsequently, with insulin or not. Insulin action was investigated by determining deoxyglucose uptake, insulin receptor substrate-1- or -2-associated phosphatidylinositol 3-kinase activity and protein kinase B (PKB) cascade using antibodies to PKB, glycogen synthase kinase-3, and Akt substrate of 160 kDa. Intracellular pH was evaluated using the fluorescent pH-sensitive dye 2',7'-bis (2-carboxyethyl)-5(6)-carboxyfluorescein (BCECF) and Na(+)/H(+) exchanger 1 (
NHE1
) activity was assessed using the NH(4)(+) prepulse method. Our key findings are as follows. AICAR and metformin enhance insulin signaling downstream of PKB. Metformin potentiates insulin-induced glucose uptake, but surprisingly, AICAR inhibits both basal and insulin-induced glucose uptake. Moreover, we found that AICAR decreases intracellular pH, via inhibition of
NHE1
. In conclusion,
AMPK
potentiates insulin signaling downstream of PKB in isolated cardiac myocytes, consistent with findings in the heart in vivo. Furthermore, AICAR inhibits basal and insulin-induced glucose uptake in isolated cardiac myocytes via the inhibition of
NHE1
and the subsequent reduction of intracellular pH. Importantly, AICAR exerts these effects in a manner independent of
AMPK
activation.
...
PMID:5-aminoimidazole-4-carboxamide-1-beta-D-ribofuranoside reduces glucose uptake via the inhibition of Na+/H+ exchanger 1 in isolated rat ventricular cardiomyocytes. 1818 46
Although Na(+)-H(+) exchanger 1 (
NHE-1
) inhibition has been demonstrated to have anti-hypertrophic effect indirectly through mitochondria, the detailed cellular mechanisms mediating this effect remain elusive. In this study we sought to determine whether
NHE-1
inhibition exerts an anti-hypertrophic effect by modulating the mitochondrial permeability transition pore (mPTP) opening through the
AMP-activated protein kinase
(
AMPK
)/glycogen synthase kinase 3beta (GSK-3beta) pathway during hypertrophy in cardiomyocytes. An in vivo model of hypertrophy was induced in male Sprague-Dawley rats by subjecting them to 3, 7 or 28 days of coronary artery ligation (CAL). To induce hypertrophy in vitro, cardiomyocytes isolated from hearts of neonatal (1-3 days) Sprague-Dawley rats were exposed to endothelin-1 (ET-1, 10 nM) in the presence or absence of various treatments. The results demonstrate that CAL affected both AMPKalpha and GSK-3beta phosphorylation in a time-dependent manner. In cultured cardiomyocytes, ET-1 increased phosphorylation of AMPKalpha(1)/alpha(2)(Ser485/Ser491) and GSK-3beta(Ser9) by 80% (P<0.05) and 225% (P<0.05) respectively, both of which were significantly blunted by the
NHE-1
inhibitor AVE-4890 (5 microM). ET-1-induced phosphorylation of GSK-3beta(Ser9) was attenuated by inhibitors of phosphatidylinositol 3-kinase (LY294002), Akt (Akt inhibitor VIII), ERK1/2 (PD98059) and by the
AMPK
agonist 5-aminoimidazole-4-carboxamide-1-beta-D-ribofuranoside (AICAR). Prevention of GSK-3beta(Ser9) phosphorylation was also accompanied by suppression of ET-1-induced increases in cell surface area, ANP and alpha-skeletal actin gene expression. Co-immunoprecipitation studies revealed that GSK-3beta interacts with components of the mPTP, voltage-dependent anion channel (VDAC) and adenine nucleotide translocase. Furthermore, ET-1 reduced phosphorylation of VDAC, which was associated with both mPTP opening and mitochondrial membrane depolarization. These effects were mimicked by the GSK-3beta inhibitor SB216763, thus showing that modulation of mPTP formation is GSK-3beta-dependent. In conclusion, anti-hypertrophic effect of
NHE-1
inhibition can be mediated through activation of GSK-3beta which in turn induces inhibition of mPTP opening due to VDAC phosphorylation.
...
PMID:Anti-hypertrophic effect of NHE-1 inhibition involves GSK-3beta-dependent attenuation of mitochondrial dysfunction. 1931 34
AMP-activated protein kinase
(
AMPK
) is activated upon energy depletion and serves to restore energy balance by stimulating energy production and limiting energy utilization. Specifically, it enhances cellular glucose uptake by stimulating GLUT and SGLT1 and glucose utilization by stimulating glycolysis. During O(2) deficiency glycolytic degradation of glucose leads to formation of lactate and H(+), thus imposing an acid load to the energy-deficient cell. Cellular acidification inhibits glycolysis and thus impedes glucose utilization. Maintenance of glycolysis thus requires cellular H(+) export. The present study explored whether
AMPK
influences Na(+)/H(+) exchanger (NHE) activity and/or Na(+)-independent acid extrusion.
NHE1
expression was determined by RT-PCR and Western blotting. Cytosolic pH (pH(i)) was estimated utilizing BCECF fluorescence and Na(+)/H(+) exchanger activity from the Na(+)-dependent re-alkalinization (DeltapH(i)) after an ammonium pulse. As a result, human embryonic kidney (HEK) cells express
NHE1
. The pH(i) and DeltapH(i) in those cells were significantly increased by treatment with
AMPK
stimulator AICAR (1mM) and significantly decreased by
AMPK
inhibitor compound C (10 microM). The effect of AICAR on pH(i) and DeltapH(i) was blunted in the presence of the Na(+)/H(+) exchanger inhibitor cariporide (10microM), but not by the H(+) ATPase inhibitor bafilomycin (10nM). AICAR significantly enhanced lactate formation, an effect significantly blunted in the presence of cariporide. These observations disclose a novel function of
AMPK
, i.e. regulation of cytosolic pH.
...
PMID:Upregulation of Na+/H+ exchanger by the AMP-activated protein kinase. 2060 58
Strict regulation of intra- and extracellular pH is an important determinant of nervous system function as many voltage-, ligand-, and H(+)-gated cationic channels are exquisitely sensitive to transient fluctuations in pH elicited by neural activity and pathophysiologic events such as hypoxia-ischemia and seizures. Multiple Na(+)/H(+) exchangers (NHEs) are implicated in maintenance of neural pH homeostasis. However, aside from the ubiquitous
NHE1
isoform, their relative contributions are poorly understood. NHE5 is of particular interest as it is preferentially expressed in brain relative to other tissues. In hippocampal neurons, NHE5 regulates steady-state cytoplasmic pH, but intriguingly the bulk of the transporter is stored in intracellular vesicles. Here, we show that NHE5 is a direct target for phosphorylation by the
AMP-activated protein kinase
(
AMPK
), a key sensor and regulator of cellular energy homeostasis in response to metabolic stresses. In NHE5-transfected non-neuronal cells, activation of
AMPK
by the AMP mimetic AICAR or by antimycin A, which blocks aerobic respiration and causes acidification, increased cell surface accumulation and activity of NHE5, and elevated intracellular pH. These effects were effectively blocked by the
AMPK
antagonist compound C, the NHE inhibitor HOE694, and mutation of a predicted
AMPK
recognition motif in the NHE5 C terminus. This regulatory pathway was also functional in primary hippocampal neurons, where
AMPK
activation of NHE5 protected the cells from sustained antimycin A-induced acidification. These data reveal a unique role for
AMPK
and NHE5 in regulating the pH homeostasis of hippocampal neurons during metabolic stress.
...
PMID:Activation of AMP-activated protein kinase regulates hippocampal neuronal pH by recruiting Na(+)/H(+) exchanger NHE5 to the cell surface. 2493 55
Low shear stress (LSS) increases degradation of the endothelial glycocalyx, leading to production of endothelial inflammation and atherosclerosis. However, the underlying mechanisms of how LSS diminishes the endothelial glycocalyx remain unclear. We showed that LSS inactivated
AMPK
, enhanced Na
+
-H
+
exchanger (NHE)1 activity, and induced glycocalyx degradation. Activation of
AMPK
prevented LSS-induced
NHE1
activity and endothelial glycocalyx impairment. We further identified hyaluronidase 2 (HYAL2) as a mediator of endothelial glycocalyx impairment in HUVECs exposed to LSS. Inactivation of
AMPK
by LSS up-regulates the activity of HYAL2, which acts downstream of
NHE1
. We characterized a left common carotid artery partial ligation (PL) model of LSS in C57BL/6 mice. The results showed decreased expression of hyaluronan (HA) in the endothelial glycocalyx and decreased thickness of the endothelial glycocalyx in PL mice. Pharmacological activation of
AMPK
by ampkinone not only attenuated glycocalyx impairment due to HA degradation but also blocked vascular cell adhesion molecule 1 and intercellular adhesion molecule 1 expression increase and macrophage recruitment in the endothelia of PL mice. Our results revealed that
AMPK
dephosphorylation induced by LSS activates
NHE1
and HYAL2 to promote HA degradation and glycocalyx injury, which may contribute to endothelial inflammatory reaction and macrophage recruitment.-Zhang, J., Kong, X., Wang, Z., Gao, X., Ge, Z., Gu, Y., Ye, P., Chao, Y., Zhu, L., Li, X., Chen, S.
AMP-activated protein kinase
regulates glycocalyx impairment and macrophage recruitment in response to low shear stress.
...
PMID:AMP-activated protein kinase regulates glycocalyx impairment and macrophage recruitment in response to low shear stress. 3086 Aug 64
