Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:2.7.10.2 (focal adhesion kinase)
44,029 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The serine/threonine kinase Akt (PKB/Rac) has been implicated as playing a role in the insulin-signaling pathway to glucose transport. Little is known regarding the regulation of Akt kinase activity in insulin-sensitive tissues, such as skeletal muscle, or whether this regulation is altered in insulin-resistant states such as NIDDM. We examined the effect of insulin on Akt kinase activity in skeletal muscle from six NIDDM patients and six healthy subjects. Whole-body insulin sensitivity, assessed by the euglycemic-hyperinsulinemic clamp, was significantly lower in NIDDM subjects (P < 0.001), and this was accompanied by impaired in vitro insulin-stimulated glucose transport in skeletal muscle. In both groups, insulin induced a significant increase in Akt kinase activity, but the response to maximal insulin (60 nmol/l) was markedly reduced in skeletal muscle from NIDDM subjects (66% of control levels, P < 0.01). Impaired Akt kinase activity was not accompanied by decreased protein expression of Akt. Instead, a trend toward increased Akt expression was noted in skeletal muscle from NIDDM subjects (P < 0.1). These parallel defects in insulin-stimulated Akt kinase activity and glucose transport in diabetic skeletal muscle suggest that reduced Akt kinase activity may play a role in the development of insulin resistance in NIDDM.
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PMID:Insulin-stimulated Akt kinase activity is reduced in skeletal muscle from NIDDM subjects. 970 29

The potential link between aging and insulin signaling has attracted substantial attention since several decades ago, on the basis of evidence including age-related increase in incidence of insulin resistance, insulin resistance and type 2 diabetes in accelerated aging syndromes and lifespan extension by caloric restriction in rodents. In addition, the intensive investigations in C. elegans in the 1990's, which have identified insulin signaling components including daf-2, age-1 and daf-16 as the genes whose mutations lead to lifespan extension, shed new light on molecular mechanisms underlying aging. As suggested by the genetic studies in C. elegans, it was recently demonstrated that FKHR, FKHRL1 and AFX, which are mammalian homologues of daf-16 forkhead transcription factor, function downstream of insulin signaling and Akt/PKB under cellular conditions. However, it is an open question whether insulin signaling components, including forkhead transcription factors, play a critical role in aging and longevity in mammals as well as in C. elegans. Increasing evidence concerning C. elegans indicates that augmented resistance to stress, in particular, that to oxidative stress is involved in lifespan extension by genetic mutations of insulin signaling components. The intriguing finding that signals from the reproductive system regulate lifespan by modulating the activities of insulin signal transduction pathway in C. elegans suggests a possibility of co-evolution of reproduction and aging. The significance of studies on C. elegans with regard to human aging is discussed.
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PMID:[Insulin receptor and aging]. 1068 93

Insulin exerts wide variety of biological effects through interaction with its specific receptor, which belongs to a large family of receptor tyrosine kinases. The activated insulin receptor phosphorylates the intracellular substrate IRS protains, which then bind various signalling molecules that contain Src homology 2 domains. The first downstram molecule that was shown to associate with IRS protains is PI3-kinase. PI3-kinase contributes to a wide variety of biological actions. Both Akt(PKB), a serine-threonine kinase with a PH domain, and atypical PKC(PKC zeta, PKC lambda) have been implicated as downstream effectors of PI3-kinase. Insulin resistance contributes to the pathogenesis of NIDDM. Both primary, genetically, and secondary, environmentally factors are important for insulin resistance. The secondary factors include hyperglycemia, hyperlipidemia, obesity, TNF alpha, FFA(free fatty acid).
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PMID:[Insulin signalling system and mechanism of insulin resistance]. 1070 48

The effect of ciprofibrate therapy on plasma lipids and lipoproteins, HDL and LDL subfraction profile, fractional esterification rate of HDL cholesterol (FER(HDL)) and the resistance of LDL and serum lipids to oxidation was studied in 24 males with type 2 diabetes and atherogenic lipoprotein phenotype (ALP). We also examined the effect of ciprofibrate therapy on oxidative DNA damage in peripheral lymphocytes. No differences in glucose, HbA1C and BMI levels were found after three months of ciprofibrate therapy. Ciprofibrate significantly decreased total cholesterol and triglyceride levels by 5.5% and 50% (p = 0.05; 0.001, respectively) and increased HDL-cholesterol levels by 8.5% (p = 0.05). FER(HDL) and LDL subfraction profile were also favorably affected. However, no effect on HDL subclasses was found. There were no statistically significant differences in lipid resistance to oxidation measured in serum and in LDL (lag time and Vmax) before and after therapy. No significant effect of ciprofibrate was found on oxidative DNA damage. The evaluation of the relationship between oxidative damage of purines with lag time in LDL and maximal rate of serum lipid oxidation showed significant correlations after therapy (r = -0.58; 0.47, p = 0.01; 0.05, respectively), but only trends before starting ciprofibrate treatment. Type 2 diabetes mellitus represents a complex metabolic disorder expressed in glucose and lipoprotein disturbances and increased oxidative stress. Ciprofibrate therapy favorably affected major features of lipid abnormalities of diabetic patients, but the level of oxidative stress assessed by in vitro and in vivo methods was not changed. The evaluation of expected logical correlations between the parameters of lipoprotein metabolism, lipid resistance in serum and LDL, and oxidative DNA damage showed that those correlations were more relevant and significant after ciprofibrate treatment and were not related with glucose homeostasis.
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PMID:Effect of ciprofibrate on lipoprotien metabolism and oxidative stress parameters in patients with type 2 diabetes mellitus and atherogenic lipoprotein phenotype. 1127 13

Leptin is produced in adipose tissue and acts in the hypothalamus to regulate food intake. However, recent evidence also indicates a potential for direct roles for leptin in peripheral tissues, including those of the immune system. In this study, we provide direct evidence that macrophages are a target tissue for leptin. We found that J774.2 macrophages express the functional long form of the leptin receptor (ObRb) and that this becomes tyrosine-phosphorylated after stimulation with low doses of leptin. Leptin also stimulates both phosphoinositide 3-kinase (PI 3-kinase) activity and tyrosine phosphorylation of JAK2 and STAT3 in these cells. We investigated the effects of leptin on hormone-sensitive lipase (HSL), which acts as a neutral cholesterol esterase in macrophages and is a rate-limiting step in cholesterol ester breakdown. Leptin significantly increased HSL activity in J774.2 macrophages, and these effects were additive with the effects of cAMP and were blocked by PI 3-kinase inhibitors. Conversely, insulin inhibited HSL in macrophages, but unlike adipocytes, this effect did not require PI 3-kinase. These results indicate that leptin and insulin regulate cholesterol-ester homeostasis in macrophages and, therefore, defects in this process caused by leptin and/or insulin resistance could contribute to the increased incidence of atherosclerosis found associated with obesity and type 2 diabetes.
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PMID:Insulin and leptin acutely regulate cholesterol ester metabolism in macrophages by novel signaling pathways. 1133 38

Insulin stimulates muscle and adipose tissue to absorb glucose through a signaling cascade that is incompletely understood. Insulin resistance, the inability of insulin to appropriately stimulate glucose uptake, is a hallmark of type 2 diabetes mellitus. The development of experimental systems that model human insulin resistance is important in elucidating the defects responsible for the development of type 2 diabetes. When two strains of mice, BTBR and C57BL/6J (B6), are crossed, the resultant male offspring (BtB6) demonstrate insulin resistance in muscle tissue. Here, we report an insulin resistance phenotype in adipose tissue from lean, nondiabetic BtB6 mice similar to that observed in human muscle. Adipocytes isolated from insulin-resistant male mice display 65% less insulin-stimulated glucose uptake compared with insulin-sensitive female mice. Similarly, adipocytes from insulin-resistant mice have diminished insulin-stimulated IRS-1 phosphorylation and phosphatidylinositol 3-kinase (PI3K) activation. However, normal activation of protein kinase B (Akt/PKB) by insulin is observed. Thus BtB6 mice demonstrate the dissociation of insulin-stimulated PI3K activity and Akt/PKB activation and represent a useful model to investigate the causes of insulin resistance in humans.
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PMID:Normal Akt/PKB with reduced PI3K activation in insulin-resistant mice. 1170 40

Insulin-stimulated glucose transport is impaired in the early phases of type 2 diabetes mellitus. Studies in rodent cells suggest that atypical PKC (aPKC) isoforms (zeta, lamda, and iota) and PKB, and their upstream activators, PI3K and 3-phosphoinositide-dependent protein kinase-1 (PDK-1), play important roles in insulin-stimulated glucose transport. However, there is no information on requirements for aPKCs, PKB, or PDK-1 during insulin action in human cell types. Presently, by using preadipocyte-derived adipocytes, we were able to employ adenoviral gene transfer methods to critically examine these requirements in a human cell type. These adipocytes were found to contain PKC-zeta, rather than PKC-lamda/iota, as their major aPKC. Expression of kinase-inactive forms of PDK-1, PKC-zeta, and PKC-lamda (which functions interchangeably with PKC-zeta) as well as chemical inhibitors of PI 3-kinase and PKC-zeta/lamda, wortmannin and the cell-permeable myristoylated PKC-zeta pseudosubstrate, respectively, effectively inhibited insulin-stimulated glucose transport. In contrast, expression of a kinase-inactive, activation-resistant, triple alanine mutant form of PKB-alpha had little or no effect, and expression of wild-type and constitutively active PKC-zeta or PKC-lamda increased glucose transport. Our findings provide convincing evidence that aPKCs and upstream activators, PI 3-kinase and PDK-1, play important roles in insulin-stimulated glucose transport in preadipocyte-derived human adipocytes.
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PMID:PKC-zeta mediates insulin effects on glucose transport in cultured preadipocyte-derived human adipocytes. 1183 10

Insulin resistance is known to play a pivotal role in type 2 diabetes. Senile individuals, besides being prone to insulin resistance and, consequently, to type 2 diabetes, manifest diseases of the central nervous system (CNS) that may be influenced by disturbances of insulin signaling in the brain, such as memory impairment, Parkinson disease, and Alzheimer disease. We investigated the expression and response to insulin of elements involved in the insulin-signaling pathway in the forebrain cortex and cerebellum of rats ages 1 d to 60 wk. The protein content of insulin receptors and SRC homology adaptor protein (SHC) did not change significantly along the time frame analyzed. However, insulin-induced tyrosine phosphorylation of the insulin receptor and SHC, and the association of SHC/growth factor receptor binding protein-2 (GRB2) decreased significantly from d 1 to wk 60 of life in both types of tissues. Moreover, the expression of SH protein tyrosine phosphatase-2 (SHP2), a tyrosine phosphatase involved in insulin signal transduction and regulation of the insulin signal, decreased significantly with age progression, in both the forebrain cortex and the cerebellum of rats. Thus, elements involved in the insulin-signaling pathway are regulated at the expression and/or functional level in the CNS, and this regulation may play a role in insulin resistance in the brain.
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PMID:Effects of age on elements of insulin-signaling pathway in central nervous system of rats. 1195 67

This review postulates and presents recent evidence that insulin resistance is initiated in the adipose tissue and also suggests that the adipose tissue may play a pivotal role in the induction of insulin resistance in the muscles and the liver. Marked impairments in insulin's intracellular signaling cascade are present in fat cells from type 2 diabetic patients, including reduced IRS-1 gene and protein expression, impaired insulin-stimulated PI3-kinase and PKB/Akt activities. In contrast, upstream insulin signaling in skeletal muscle from diabetic subjects only shows modest impairments and PKB/Akt activation in vivo by insulin appears normal. However, insulin-stimulated glucose transport and glycogen synthesis are markedly reduced. Similar marked impairments in insulin signaling, including reduced IRS-1 expression, impaired insulin-stimulated PI3-kinase and PKB/Akt activities are also seen in some (approximately 30%) normoglycemic individuals with genetic predisposition for type 2 diabetes. In addition, GLUT4 expression is markedly reduced in these cells, similar to what is seen in diabetic cells. The individuals with reduced cellular expression of IRS-1 and GLUT4 are also markedly insulin resistant and exhibit several characteristics of the Insulin Resistance Syndrome.Thus, a 'diabetic' pattern is seen in the fat cells also in normoglycemic subjects and this is associated with a marked insulin resistance in vivo. It is proposed that insulin resistance and/or its effectors is initiated in fat cells and that this may secondarily encompass other target tissues for insulin, including the impaired glucose transport in the muscles.
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PMID:Impaired ('diabetic') insulin signaling and action occur in fat cells long before glucose intolerance--is insulin resistance initiated in the adipose tissue? 1208 Apr 41

This paper summarizes data from different studies all aimed at elucidating regulation of protein kinase B in the diabetic heart. Two rat models of type 2 diabetes mellitus ((i) elicited via neonatal streptozotocin injection (Stz) and (ii) Zucker fa/fa rats), were used as well as different experimental models viz isolated, Langendorff perfused hearts as well as adult ventricular myocytes. Glucose uptake was elicited by a variety of stimuli and the activation of PKB measured in tandem. Basal glucose uptake was impaired in both diabetes models while basal phosphorylation of PKB differed, showing lower levels in the Stz model but higher levels in the Zucker rats. Neither 100 nM insulin nor 10(-8) M isoproterenol could stimulate PKB phosphorylation to the same extent in the diabetic myocardium as in controls, regardless of the method used, but a combination of these stimuli resulted in an additive response. Concurrent glucose uptake however, was not additive. Wortmannin abolished both insulin and isoproterenol stimulation of glucose uptake as well as PKB phosphorylation. In contrast to the above-mentioned results, the protein tyrosine phosphatase inhibitor vanadate, alone or in combination with insulin, elicited PKB phosphorylation to the same extent in diabetic cardiomyocytes as in controls. Despite this, glucose uptake stimulated by vanadate or insulin in combination with vanadate was attenuated. The combination of insulin and vanadate may however be beneficial to the diabetic heart as it resulted in improved glucose transport. Results from the different studies can be summarized as follows: (i) dysregulation of PKB is evident in the diabetic myocardium, (ii) PKB activation is not always directly correlated with glucose uptake and (iii) insulin resistance is associated with multiple alterations in signal transduction, both above and below PKB activation.
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PMID:Protein kinase B in the diabetic heart. 1295 95


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