Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.11.24 (mitogen-activated protein kinase)
 95,810 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The observation that genistein may behave as a pro-oxidant agent lead us to examine the capacity of this isoflavone to modulate the toxicity of the oxidation-sensitive anti-leukemic agent arsenic trioxide (ATO), and for comparison other anti-tumor drugs. Co-treatment with genistein increased ATO-provoked apoptosis and activated apoptosis regulatory events (Bcl-X(L) down-regulation, cytochrome c and Omi/HtrA2 release from mitochondria, XIAP decrease and caspase-8/Bid and caspase-3 activation) in U937 promonocytes and other human leukemia cell lines (HL60, THP-1, Jurkat, RPMI-8866), but not in phytohemagglutinin-stimulated non-tumor peripheral blood lymphocytes (PBLs). Genistein, alone and with ATO, stimulated reactive oxygen species generation, and apoptosis was attenuated by N-acetyl-L-cysteine and butylated hydroxyanisole. Addition of low H(2)O(2) concentrations mimicked the capacity of genistein to increase ATO-provoked apoptosis in leukemia cells, but not in PBLs. By contrast, co-treatment with genistein or H(2)O(2) failed to potentiate the toxicity of DNA-targeting agent cisplatin, the proteasome inhibitor MG-132 and the histone deacetylase inhibitor MS-275. Within the here used time-period (14 hr) genistein, alone or with ATO, did not significantly affect Akt phosphorylation and NF-kappaB binding activity, nor decreased intracellular GSH content. However, it elicited N-acetyl-L-cysteine-inhibitable phosphorylation of p38-MAPK and AMPK, and apoptosis was attenuated by pharmacologic inhibitors against these kinases. The pro-oxidant capacity of genistein might be exploited to improve the efficacy of ATO as anti-leukemic agent, and perhaps the efficacy of other oxidation-based therapeutic approaches.
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PMID:Genistein selectively potentiates arsenic trioxide-induced apoptosis in human leukemia cells via reactive oxygen species generation and activation of reactive oxygen species-inducible protein kinases (p38-MAPK, AMPK). 1854 68

Ultraviolet radiation (UV) induces apoptosis and functional maturation in skin dendritic cells (DCs). However, the molecular mechanisms through which UV activates DCs have not been thoroughly investigated. In this study, we examined the mechanisms of activation and apoptosis of DCs after UV irradiation by focusing on epidermal growth factor receptor (EGFR). Our previous studies have demonstrated that in addition to cognate ligands, EGFR is also activated by UVB irradiation in cultured human skin keratinocytes in vitro and in human skin in vivo. We found for the first time in this study that UV also induces EGFR activation in cultured mouse skin DCs (XS 106 cell line) as well as mouse monocyte-derived dendritic cells (MoDCs). Pharmacological inhibition of EGFR tyrosine kinase significantly inhibits UV-induced ERK, p38, and JNK MAP kinases, and their effectors, transcription factors c-Fos and c-Jun. Inhibition of EGFR also suppresses UV-induced activation of PI3K/AKT/mTOR/S6K and NF-kappaB signal transduction pathways. Our data demonstrated that UV induces LKB1/AMPK pathway, also dependent on EGFR trans-activation. We further observed that MAPK, LKB1/AMPK, PI3K/AKT/mTOR/S6K as well as NF-kappaB activation are impaired in EGFR-/- cells compared to wide type MEF cells after UV radiation. Taken together, we conclude that UV induces multiple signaling pathways mediated by EGFR trans-activation leading to possible maturation, apoptosis and survival, and EGFR activation protects against UV-induced apoptosis in cultured mouse dendritic cells.
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PMID:EGFR activation confers protections against UV-induced apoptosis in cultured mouse skin dendritic cells. 1864 33

Tuberin, the Tsc2 gene product, integrates the phosphatidylinositol 3-kinase/mitogen-activated protein kinase (mitogenic) and LKB1/AMP-activated protein kinase (AMPK; energy) signaling pathways, and previous independent studies have shown that loss of tuberin is associated with elevated AMPK signaling and altered p27 function. In Tsc2-null tumors and tumor-derived cells from Eker rats, we observed elevated AMPK signaling and concordant cytoplasmic mislocalization of p27. Cytoplasmic localization of p27 in Tsc2-null cells was reversible pharmacologically using inhibitors of the LKB1/AMPK pathway, and localization of p27 to the cytoplasm could be induced directly by activating AMPK physiologically (glucose deprivation) or genetically (constitutively active AMPK) in Tsc2-proficient cells. Furthermore, AMPK phosphorylated p27 in vitro on at least three sites including T170 near the nuclear localization signal, and T170 was shown to determine p27 localization in response to AMPK signaling. p27 functions in the nucleus to suppress cyclin-dependent kinase-2 (Cdk2) activity and has been reported to mediate an antiapoptotic function when localized to the cytoplasm. We found that cells with elevated AMPK signaling and cytoplasmic p27 localization exhibited elevated Cdk2 activity, which could be suppressed by inhibiting AMPK signaling. In addition, cells with elevated AMPK signaling and cytoplasmic p27 localization were resistant to apoptosis, which could be overcome by inhibition of AMPK signaling and relocalization of p27 to the nucleus. These data show that AMPK signaling determines the subcellular localization of p27, and identifies loss of integration of pathways controlling energy balance, the cell cycle, and apoptosis due to aberrant AMPK and p27 function as a feature of cells that have lost the Tsc2 tumor suppressor gene.
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PMID:AMP-activated protein kinase signaling results in cytoplasmic sequestration of p27. 1870 72

Adiponectin is a major insulin-sensitizing, multimeric hormone derived from adipose tissue that acts on muscle and liver to regulate whole-body glucose and lipid metabolism. Here, we describe a novel and highly conserved paralog of adiponectin designated as C1q/TNF-related protein (CTRP) 9. Of all the CTRP paralogs, CTRP9 shows the highest degree of amino acid identity to adiponectin in its globular C1q domain. CTRP9 is expressed predominantly in adipose tissue and females expresses higher levels of the transcript than males. Moreover, its expression levels in ob/ob mice changed in an age-dependent manner, with significant up-regulation in younger mice. CTRP9 is a secreted glycoprotein with multiple post-translational modifications in its collagen domain that include hydroxylated prolines and hydroxylated and glycosylated lysines. It is secreted as multimers (predominantly trimers) from transfected cells and circulates in the mouse serum with levels varying according to sex and metabolic state of mice. Furthermore, CTRP9 and adiponectin can be secreted as heterooligomers when cotransfected into mammalian cells, and in vivo, adiponectin/CTRP9 complexes can be reciprocally coimmunoprecipitated from the serum of adiponectin and CTRP9 transgenic mice. Biochemical analysis demonstrates that adiponectin and CTRP9 associate via their globular C1q domain, and this interaction does not require their conserved N-terminal cysteines or their collagen domains. Furthermore, we show that adiponectin and CTRP9 form heterotrimers. In cultured myotubes, CTRP9 specifically activates AMPK, Akt, and p44/42 MAPK signaling pathways. Adenovirus-mediated overexpression of CTRP9 in obese (ob/ob) mice significantly lowered serum glucose levels. Collectively, these results suggest that CTRP9 is a novel adipokine, and further study of CTRP9 will yield novel mechanistic insights into its physiological and metabolic function.
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PMID:Identification and characterization of CTRP9, a novel secreted glycoprotein, from adipose tissue that reduces serum glucose in mice and forms heterotrimers with adiponectin. 1878 8

Chronic kidney disease (CKD) in ageing is a burden on health systems worldwide. Rat models of age-related CKD linked with obesity and hypertension were used to investigate alterations in oxidant handling and energy metabolism to identify gene targets or markers for age-related CKD. Young adult (3 months) and old (21-24 months) spontaneously-hypertensive (SHR), normotensive Wistar-Kyoto (WKY) and Wistar rats (normotensive, obese in ageing) were compared for renal functional and physiological parameters, renal fibrosis and inflammation, oxidative stress (hemeoxygenase-1/HO-1), apoptosis and cell injury (including Bax:Bcl-2), phosphorylated and non-phosphorylated forms of oxidant and energy sensing proteins (p66Shc, AMPK), signal transduction proteins (ERK1/2, PKB), and transcription factors (NF-kappaB, FoxO1). All old rats were normoglycemic. Renal fibrosis, tubular epithelial apoptosis, interstitial macrophages and myofibroblasts (all p<0.05), p66Shc/phospho-p66 (p<0.05), Bax/Bcl-2 ratio (p<0.05) and NF-kappaB expression (p<0.01) were highest in old obese Wistars. Expression of phospho-FoxO/FoxO was elevated in old Wistars (p<0.001) and WKYs (p<0.01). SHRs had high levels in young and old rats. Expression of PKB, phospho-PKB, ERK1/2 and phospho-ERK1/2 were significantly elevated in all aged animals. These results suggest that obesity and hypertension have differing oxidant handling and signalling pathways that act in the pathogenesis of age-related CKD.
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PMID:Obesity and hypertension have differing oxidant handling molecular pathways in age-related chronic kidney disease. 1904 34

From a cell signaling perspective, short-duration intense muscular work is typically associated with resistance training and linked to pathways that stimulate growth. However, brief repeated sessions of sprint or high-intensity interval exercise induce rapid phenotypic changes that resemble traditional endurance training. We tested the hypothesis that an acute session of intense intermittent cycle exercise would activate signaling cascades linked to mitochondrial biogenesis in human skeletal muscle. Biopsies (vastus lateralis) were obtained from six young men who performed four 30-s "all out" exercise bouts interspersed with 4 min of rest (<80 kJ total work). Phosphorylation of AMP-activated protein kinase (AMPK; subunits alpha1 and alpha2) and the p38 mitogen-activated protein kinase (MAPK) was higher (P <or= 0.05) immediately after bout 4 vs. preexercise. Peroxisome proliferator-activated receptor-gamma coactivator-1alpha (PGC-1alpha) mRNA was increased approximately twofold above rest after 3 h of recovery (P <or= 0.05); however, PGC-1alpha protein content was unchanged. In contrast, phosphorylation of protein kinase B/Akt (Thr(308) and Ser(473)) tended to decrease, and downstream targets linked to hypertrophy (p70 ribosomal S6 kinase and 4E binding protein 1) were unchanged after exercise and recovery. We conclude that signaling through AMPK and p38 MAPK to PGC-1alpha may explain in part the metabolic remodeling induced by low-volume intense interval exercise, including mitochondrial biogenesis and an increased capacity for glucose and fatty acid oxidation.
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PMID:Brief intense interval exercise activates AMPK and p38 MAPK signaling and increases the expression of PGC-1alpha in human skeletal muscle. 1911 61

The isolated perfused heart is an important model in cardiovascular research. We hypothesized that the perfusion procedure per se will phosphorylate some protein kinases important in pre- and postconditioning. Isolated hearts were Langendorff-perfused for 20 min with or without an intraventricular balloon (rats and mice), or in the working heart mode (mice) and compared to non-perfused controls with respect to protein phosphorylation. Rat hearts were also perfused for 20 and 50 min in the Langendorff mode to investigate the effect of perfusion time on phosphorylation. Western blot analysis showed that perfusion per se induced a massive phosphorylation of ERK 1/2, P38-MAPK, JNK, AMPK, but decreased phosphorylation of AKT in the isolated rat and mouse heart. However, during ongoing perfusion the phosphorylation of these kinases was reduced. Langendorff-perfusion without the intraventricular balloon caused less phosphorylation of ERK 1/2, P38-MAPK and JNK, but had no effect on AMPK. In working hearts phosphorylation of kinases was similar to that of Langendorff-perfused hearts without the balloon. Our findings indicate that excising, handling and perfusion induce a time dependent phosphorylation of stress kinases. The presence of the intraventricular balloon caused the strongest phosphorylation, thus Langendorff-perfused hearts might be partly protected by the perfusion procedure if stress kinases are protective in pre- and postconditioning. This might explain conflicting results obtained with different models of both pre- and postconditioning, and the isolated heart might in some situations be suboptimal for such studies.
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PMID:Inadvertent phosphorylation of survival kinases in isolated perfused hearts: a word of caution. 1919 17

In type 2 diabetes (T2D), postprandial and fasting hyperglycemia are important predictors of cardiovascular diseases; however, few drugs are currently available to simultaneously suppress these conditions. Here, we report an enduring antidiabetic effect of the heme oxygenase (HO) inducer hemin on Goto-Kakizaki rats (GK), a nonobese insulin-resistant T2D model. HO breaks down the heme-moiety-generating antioxidants (biliverdin/bilirubin and ferritin) and carbon monoxide, which stimulate insulin secretion. Hemin induces HO-1 to potentiate HO activity and the HO-derived products. Chronically applied hemin (30 mg/kg ip) for a month reduced and maintained fasting glucose at physiological levels for 3 mo. Before therapy, glucose levels were 9.3 +/- 0.3 mmol/l (n = 14). At 1, 2, and 3 mo posttherapy, we recorded 6.7 +/- 0.13, 5.9 +/- 0.2, and 7.2 +/- 0.2 mmol/l, respectively. Hemin was also effective against postprandial hyperglycemia (14.6 +/- 1.1 vs. 7.5 +/- 0.4 mmol/l; n = 14; P < 0.01), and the effect remained sustained for 3 mo after therapy. The reduction of hyperglycemia was accompanied by enhanced HO-1, HO activity, and cGMP of the soleus muscle, alongside increased plasma bilirubin, ferritin, SOD, total antioxidant capacity, and insulin levels, whereas markers/mediators of oxidative stress like urinary-8-isoprostane and soleus muscle nitrotyrosine, NF-kappaB, and activator protein-1 and -2 were abated. Furthermore, inhibitors of insulin signaling including soleus muscle glycogen synthase kinase-3 and JNK were reduced, while the insulin-sensitizing adipokine, adiponectin, alongside AMPK were increased. Correspondingly, hemin improved glucose tolerance, suppressed insulin intolerance, reduced insulin resistance, and overturned the inability of insulin to enhance glucose transporter 4, a protein required for glucose uptake. Hemin also upregulated HO-1/HO activity and cGMP and lowered glucose in euglycemic Sprague-Dawley control rats albeit less intensely, suggesting greater selectivity of the HO system in diabetic conditions. In conclusion, reduced oxidative stress alongside the concomitant and paradoxical enhancement of insulin secretion and insulin-sensitizing pathways may account for the 3-mo-enduring antidiabetic effect. The synergistic interaction among HO, adiponectin, and GLUT4 may be explored against insulin-resistant diabetes.
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PMID:Upregulation of the heme oxygenase system ameliorates postprandial and fasting hyperglycemia in type 2 diabetes. 1920 58

Insulin signaling is dysfunctional in obesity and diabetes. Moreover, central glucose-sensing mechanisms are impaired in these diseases. This is associated with abnormalities in hypothalamic glucose-sensing neurons. Glucose-sensing neurons reside in key areas of the brain involved in glucose and energy homeostasis, such as the ventromedial hypothalamus (VMH). Our results indicate that insulin opens the K(ATP) channel on VMH GE neurons in 5, 2.5, and 0.1 mM glucose. Furthermore, insulin reduced the sensitivity of VMH GE neurons to a decrease in extracellular glucose level from 2.5 to 0.1 mM. This change in the glucose sensitivity in the presence of insulin was reversed by the phosphatidylinositol 3-kinase (PI3K) inhibitor wortmannin (10 nM) but not by the mitogen-activated kinase (MAPK) inhibitor PD-98059 (PD; 50 microM). Finally, neither the AMPK inhibitor compound C nor the AMPK activator AICAR altered the activity of VMH GE neurons. These data suggest that insulin attenuates the ability of VMH GE neurons to sense decreased glucose via the PI3K signaling pathway. Furthermore, these data are consistent with the role of insulin as a satiety factor. That is, in the presence of insulin, glucose levels must decline further before GE neurons respond. Thus, the set point for detection of glucose deficit and initiation of compensatory mechanisms would be lowered.
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PMID:Insulin blunts the response of glucose-excited neurons in the ventrolateral-ventromedial hypothalamic nucleus to decreased glucose. 1922 52

During embryo implantation, a complex dialog exists between the mother and the fetus. However, little is known about the molecules that participate in this process. Among various factors secreted at the maternal-fetal interface, the adipose tissue-derived leptin is now considered a placental growth factor. Adiponectin is another adipocyte-derived signaling molecule known to exert antiproliferative effects in various cell types. In this work, we studied adiponectin sensitivity and effects on JEG-3 and BeWo choriocarcinoma cell lines. First, we showed that JEG-3 and BeWo cells express the specific adiponectin receptors ADIPOR1 and ADIPOR2 and respond to human recombinant adiponectin by AMP-activated protein kinase (PRKA, also known as AMPK) activation. Second, we demonstrated that adiponectin induces a reduction in cell number and in [(3)H]-thymidine incorporation, demonstrating that adiponectin has antiproliferative effects on trophoblastic cells. Furthermore, these effects of adiponectin seem to be, at least in part, mediated by the mitogen-activated protein kinase (MAPK) and phosphoinositide-3-kinase (PI3K) signaling pathways. We describe herein the direct effects of adiponectin in the control of trophoblastic cell proliferation.
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PMID:Antiproliferative effects of adiponectin on human trophoblastic cell lines JEG-3 and BeWo. 1924 22


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