Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.10.2 (focal adhesion kinase)
 44,029 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The CBP protein (cAMP response element binding protein (CREB) binding protein) is a co-activator for several transcription factors with a wide range of important biological functions, such as sterol regulatory element binding proteins (SREBPs), CCAAT/enhancer-binding proteins (C/EBPs), nuclear receptors (including peroxisome proliferator-activated receptors, PPARs), and signal transducers and activators of transcription (STATs). In contrast to these individual transcription factors, the biological roles of CBP are poorly understood. CBP enhances transcriptional activities via histone acetylation and the recruitment of additional co-activators such as SRC (steroid coactivator)-1 (ref. 9). To identify its physiological functions using a loss-of-function mutant, we analyzed CBP-deficient mice. As Crebbp null mice (Crebbp-/-) died during embryogenesis, we used Crebbp+/- mice. Unexpectedly, Crebbp+/- mice showed markedly reduced weight of white adipose tissue (WAT) but not of other tissues. Despite this lipodystrophy, Crebbp+/- mice showed increased insulin sensitivity and glucose tolerance and were completely protected from body weight gain induced by a high-fat (HF) diet. We observed increased leptin sensitivity and increased serum adiponectin levels in Crebbp+/- mice. These increased effects of insulin-sensitizing hormones secreted from WAT may explain, at least in part, the phenotypes of Crebbp+/- mice. This study demonstrates that CBP may function as a 'master-switch' between energy storage and expenditure.
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PMID:Increased insulin sensitivity despite lipodystrophy in Crebbp heterozygous mice. 1181 64

Hormone-sensitive lipase (HSL) is a major enzyme for triglyceride (TG) lipolysis in adipose tissue. In HSL-knockout mice, plasma free fatty acid and TG levels are low, associated with low liver TG content. Because a decreased hepatic insulin sensitivity has been reported to be associated with high liver TG levels, our aim was to determine whether a hepatic TG content lower than normal, as observed in HSL-knockout mice, leads to increased hepatic insulin sensitivity. Therefore, hyperinsulinemic clamp experiments in combination with D-(3)H-glucose were used. Furthermore, hepatic insulin receptor and phosphorylated protein kinase B (PKB-P)/akt were analyzed by Western blotting. No significant differences where observed in insulin-mediated whole-body glucose uptake between HSL-knockout and control mice. Interestingly, hepatic insulin sensitivity of HSL-knockout mice was increased, because insulin caused a greater reduction in endogenous glucose production ( approximately 71% compared with approximately 31% in control mice; P < 0.05), despite decreased plasma adiponectin levels. PKB/akt phosphorylation and phosphatidylinositol-3-kinase activity was significantly higher in livers of HSL-knockout mice after insulin stimulation. In HSL-knockout mice, reduced hepatic TG stores result in an increased suppressive effect of insulin on hepatic glucose production, in line with an increased hepatic PKB-P/akt and phosphatidylinositol-3 kinase activity. Thus, hepatic insulin sensitivity is indeed increased after reducing hepatic TG stores below normal.
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PMID:Increased hepatic insulin sensitivity together with decreased hepatic triglyceride stores in hormone-sensitive lipase-deficient mice. 1286 25

New scores and biochemical markers have recently been published for diagnosis of insulin resistance and beta-cell dysfunction (such as intact proinsulin, adiponectin, IRISII-score). One goal of this 6-month prospective controlled study was to evaluate the impact of pioglitazone (45 mg) vs. glimepiride (1-6 mg, in the intend to optimize therapy) on these markers. Observation parameters were: IRIS-II score, HOMA-score, ATP III score, HbA (1c), fasting glucose, lipids, intact proinsulin, adiponectin, and adverse events. The study was completed by 173 patients (66 female, 107 male, age +/- STD: 63 +/- 8 years, disease duration: 7.2 +/- 7.2 years, HbA (1c): 7.53 +/- 0.85 %, pioglitazone arm: 89 patients). The groups were not different for any of the observation parameters at baseline, and a similar reduction in HbA (1c) was seen in both groups (p < 0.001). In the pioglitazone group, reductions were observed for the IRIS-II and HOMA scores (p < 0.001 vs. glimepiride at endpoint) fasting glucose (p < 0.001), insulin (p < 0.001), LDL/HDL ratio (p < 0.001), hsCRP (p < 0.05), intact proinsulin (p < 0.001), and an increase was seen in HDL (p < 0.001), adiponectin (p < 0.001) and BMI (p < 0.001). In conclusion, treatment with pioglitazone resulted in an improvement of markers for insulin resistance and beta-cell dysfunction, independent from blood glucose control. Adiponectin, intact proinsulin, and the IRIS-II score may be suitable parameters for monitoring of these additional beneficial therapeutic effects.
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PMID:Pioneer study: PPARgamma activation results in overall improvement of clinical and metabolic markers associated with insulin resistance independent of long-term glucose control. 1613 65

Adipose tissue plays a critical role in energy homeostasis, not only in storing triglycerides, but also responding to nutrient, neural, and hormonal signals and secreting adipokines that control feeding, thermogenesis, immunity, and neuroendocrine function. A rise in leptin signals satiety to the brain through receptors in hypothalamic and brainstem neurons. Leptin activates tyrosine kinase, Janus kinase 2, and signal transducer and activator of transcription 3, leading to increased levels of anorexigenic peptides, e.g., alpha-melanocyte stimulating hormone and cocaine- and amphetamine-regulated transcript, and inhibition of orexigenic peptides, e.g., neuropeptide Y and agouti-related peptide. Obesity is characterized by hyperleptinemia and hypothalamic leptin resistance, partly caused by induction of suppressor of cytokine signaling-3. Leptin falls rapidly during fasting and potently stimulates appetite, reduces thermogenesis, and mediates the inhibition of thyroid and reproductive hormones and activation of the hypothalamic-pituitary-adrenal axis. These actions are integrated by the paraventicular hypothalamic nucleus. Leptin also decreases glucose and stimulates lipolysis through central and peripheral pathways involving AMP-activated protein kinase (AMPK). Adiponectin is secreted exclusively by adipocytes and has been linked to glucose, lipid, and cardiovascular regulation. Obesity, diabetes, and atherosclerosis have been associated with reduced adiponectin levels, whereas adiponectin treatment reverses these abnormalities partly through activation of AMPK in liver and muscle. Administration of adiponectin in the brain recapitulates the peripheral actions to increase fatty acid oxidation and insulin sensitivity and reduce glucose. Although putative adiponectin receptors are widespread in peripheral organs and brain, it is uncertain whether adiponectin acts exclusively through these targets. As with leptin, adiponectin requires the central melanocortin pathway. Furthermore, adiponectin stimulates fatty acid oxidation and reduces glucose and lipids, at least in part, by activating AMPK in muscle and liver.
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PMID:Adipose tissue as an endocrine organ. 1702 75

Adiponectin, an adipokine secreted from adipocytes, plays a crucial role in the regulation of glucose and lipid metabolism. In the present study, we examine the role of the IL-6 family of cytokines in the expression of adiponectin in human adipocytes derived from human adipose tissue-derived stromal cells. Oncostatin M (OSM), but not IL-6, attenuated the expression level of adiponectin dose- and time-dependently, and the inhibitory effect of OSM on adiponectin expression was as potent as that of TNF-alpha. The OSM-induced down-regulation of adiponectin expression was correlated with the down-regulation of PPARgamma2 and lipoprotein lipase, markers for adipogenic differentiation, and depletion of intracellular lipid droplets, suggesting dedifferentiation of adipocytes in response to OSM. OSM induced phosphorylation of STAT1, and treatment of adipocytes with JAK3 inhibitor WHI-P131 or MEK inhibitor U0126, but not with JAK2 inhibitor AG490, prevented the activation of STAT1. Furthermore, the OSM-induced suppression of adiponectin expression and dedifferentiation of adipocytes were ameliorated by WHI-P131 or U0126, but not by AG490. These results suggest that OSM inhibits adiponectin expression by inducing dedifferentiation of adipocytes through signaling pathways involving JAK3 and MEK, but not JAK2.
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PMID:Oncostatin M decreases adiponectin expression and induces dedifferentiation of adipocytes by JAK3- and MEK-dependent pathways. 1708 97

Pioglitazone is widely used for the treatment of diabetic patients with insulin resistance. The mechanism of pioglitazone to improve insulin sensitivity is not fully understood. Recent studies have shown that the induction of suppressor of cytokine signaling 3 (SOCS3) is related to the development of insulin resistance. Here, we examined whether the insulin-sensitizing effect of pioglitazone affects the SOCS induction. In db/db mice and high-fat-fed mice, expression of SOCS3 mRNA in fat tissue was increased compared with that in lean control mice, and pioglitazone suppressed SOCS3 levels. In 3T3-L1 adipocytes, mediators of insulin resistance such as tumor necrosis factor-alpha (TNF-alpha), interleukin-6, growth hormone, and insulin increased SOCS3 expression, which was partially inhibited by pioglitazone. The ability of pioglitazone to suppress SOCS3 induction by TNF-alpha was greatly augmented by peroxisome proliferator-activated receptor gamma overexpression. SOCS3 overexpression and tyrphostin AG490, a Janus kinase 2 inhibitor, or dominant-negative STAT3 expression partially inhibited adiponectin secretion and was accompanied by decreased STAT3 phosphorylation. Conversely, pioglitazone increased adiponectin secretion and STAT3 phosphorylation in fat tissue of db/db mice and in 3T3-L1 adipocytes. These results suggest that pioglitazone exerts its effect to improve whole-body insulin sensitivity in part through the suppression of SOCS3, which is associated with the increase in STAT3 phosphorylation and adiponectin production in fat tissue.
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PMID:Effects of pioglitazone on suppressor of cytokine signaling 3 expression: potential mechanisms for its effects on insulin sensitivity and adiponectin expression. 1732 50

Adiponectin and leptin, two adipose-tissue-derived proteins, have been reported to be elevated in women with established PE (pre-eclampsia). The aim of the present study was to investigate whether alterations in adiponectin and leptin levels predate the development of PE and FGR (fetal growth restriction) in women at increased risk of these complications, as assessed by Doppler examination of the uterine arteries during the second trimester of pregnancy. We also sought to investigate the circulating levels of adiponectin and leptin in women with established severe early-onset FGR. The study included three groups of pregnant women at 23-25 weeks: Group A (n=44) with normal uterine artery Doppler waveforms, Group B (n=49) with abnormal Doppler waveforms and normal fetal growth at the time of the examination, and Group C (n=15) with established severe FGR and abnormal Doppler waveforms. All women had plasma adiponectin and leptin measured by sensitive immunoassays. In Group B, 19 women had a normal outcome, 17 delivered infants with FGR and 13 developed PE. The women who developed PE delivered smaller babies earlier than women with a normal outcome (P<0.001). There were no significant differences in adiponectin levels between any of the groups (overall P=0.3). Leptin concentrations, expressed as MoM (multiples of the median) of Group A, were higher in women in Group C, i.e. established severe FGR at 2.5 (1.2-2.7) MoMs (overall P<0.001), compared with all of the other groups and subgroups. In conclusion, we found that, in pregnancies complicated by severe early-onset FGR, the maternal plasma concentration of leptin is twice as high as in normal pregnancies. However, the second trimester levels of maternal plasma adiponectin and leptin in pregnancies that subsequently develop PE and/or FGR are not significantly different from normal and, consequently, it is unlikely that these markers will be useful as predictors of these pregnancy complications.
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PMID:Circulating levels of adiponectin and leptin at 23-25 weeks of pregnancy in women with impaired placentation and in those with established fetal growth restriction. 1821 Dec 60

Adiponectin exerts an insulin-sensitizing effect, improving insulin action in peripheral tissues and restraining insulin resistance. Here, we explore the hypothesis that adiponectin can reproduce some of the actions of insulin/leptin in the hypothalamus. The presence of AdipoR1 and AdipoR2 was mapped to the arcuate and lateral hypothalamic nuclei. Icv adiponectin reduced food intake, which was accompanied by activation/engagement of IRS1/2, ERK, Akt, FOXO1, JAK2 and STAT3. All these actions were dependent on AdipoR1, since inhibition of this receptor, and not of AdipoR2, completely reversed the effects described above. Thus, adiponectin acts in the hypothalamus, activating elements of the canonical insulin and leptin signaling pathways and promoting reduction of food intake.
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PMID:AdipoR1 mediates the anorexigenic and insulin/leptin-like actions of adiponectin in the hypothalamus. 1839 28

Visfatin is a recently described new adipokine that is considered to bind to the insulin receptor and induce insulin action via signal transduction pathways distinct from those of insulin. This study investigated whether circulating plasma visfatin levels may be influenced by PPARy activation, as shown for adiponectin and other adipokines. Samples from a prospective single-blinded placebo-controlled three-month intervention study with rosiglitazone were retrospectively analysed. The samples were derived from 39 patients with type 2 diabetes mellitus suffering from coronary artery disease as confirmed by angiography (rosiglitazone arm: 18 men, 1 woman, age (mean +/- STD): 65 +/- 9 years, disease duration: 4.8 +/- 4.0 years, HbA1c: 7.3 +/- 1.3%; Placebo: 19 men, 1 woman, age: 64 +/- 10 years, disease duration: 5.1 +/- 6.5 years, HbA1c: 7.5 +/- 1.5%). Laboratory measurements for lipids, adiponectin, and visfatin were performed with validated tests. The baseline values were comparable for all observation markers. After three months, a significant increase in the adiponectin concentrations could be observed only in the rosiglitazone group (from: 6.9 +/- 0.9 mg/l to 16.5 +/- 1.5 mg/l, (p < 0.001) vs placebo: 7.8 +/- 6.3 mg/l to 8.0 +/- 0.8 mg/l, (n.s.), p < 0.001 between the groups at endpoint). No changes were seen in both treatment arms for the other observation parameters. In particular, no influence of rosiglitazone was seen on the visfatin concentrations (25.9 +/- 2.3 ng/ml to 25.8 +/- 1.9 ng/ml; Placbo: 26.9 +/- 5.4 ng/ml to 27.2 +/- 4.9 ng/ml, n.s.). Our investigation demonstrates that rosiglitazone has different effects on circulating concentrations of adiponectin and visfatin. Visfatin secretion is not regulated by PPARgamma and further research is required to investigate its role in insulin resistance.
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PMID:Impact of rosiglitazone on visfatin and adiponectin plasma concentrations in patients with type 2 diabetes and coronary artery disease. 1894 91

Retinol binding protein 4 (RBP4) has recently been suggested as a good biomarker for insulin resistance and the metabolic syndrome. With this study, we wanted to investigate the effect of pioglitazone (PIO) and simvastatin (SIMVA) on insulin resistance and RBP4 plasma concentrations in nondiabetic patients with metabolic syndrome and increased risk for cardiovascular complications. The prospective, parallel, randomized, double-blind clinical trial was performed with 125 nondiabetic patients with increased cardiovascular risk (78 females, 47 males, age (mean+/-STD): 58.6+/-7.8 years, BMI: 30.8+/-4.2 kg/m (2)). They were randomized to either receive PIO (45 mg)+placebo, SIMVA (40 mg)+placebo, or PIO+SIMVA for 3 months. Key outcome measures were the HOMA (IR)-Score, an oral glucose tolerance test, adiponectin, hsCRP, and RBP4 at baseline and endpoint. No correlation could be detected between the HOMA (IR) values or the impaired fasting glucose tolerance status and RBP-4. Treatment with PIO alone or in combination with SIMVA resulted in a significant improvement of the HOMA (IR)-Score and the adiponectin values, while no change in HOMA (IR) and a decrease in adiponectin (p<0.05) were observed with SIMVA monotherapy. Reductions of hsCRP were seen in all three treatment arms (p<0.001). No changes of the plasma RBP4 concentrations were observed in any of the treatment groups (PIO: 35.6+/-7.2/36.3+/-8.7 ng/ml, PIO+SIMVA: 36.5+/-10.8/36.5+/-8 ng/ml, SIMVA: 36.1+/-8.1/36.6+/-11.1 ng/ml, all n.s. vs. baseline). Despite a partial or comprehensive improvement in insulin resistance and/or cardiovascular risk indicators in all treatment arms, no change in RBP4-levels could be observed. The regulation of RBP4 expression and secretion occurs through biochemical pathways independent from those influenced by pioglitazone or simvastatin.
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PMID:Changes in insulin resistance and cardiovascular risk induced by PPARgamma activation have no impact on RBP4 plasma concentrations in nondiabetic patients. 1922 30


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