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: UMLS:C0011860 (type 2 diabetes)
57,723 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Tumor necrosis factor-alpha (TNF-alpha) has recently been implicated as a cause of insulin resistance (IR) in obesity and non-insulin dependent diabetes mellitus (NIDDM). To examine mechanisms involved, we induced IR induced IR in H-411 E cells with graded doses of TNF-alpha and measured the ability of insulin (INS) to stimulate both calmodulin (CaM) mRNA and glucose utilization. With TNF-alpha concentration at 1 ng/ml and 10(4) muU/ml INS, metformin 10 microM and pioglitazone 1.5 microM, reversed the IR induced by TNF-alpha restoring biologic response to 100% of INS effect alone. Furthermore, comparable results were obtained with glucose utilization/oxidation experiments in the H-411 E cells using glucose U-14C, trapping 14CO2 release in a hyamine filter and extracting 14C labelled lipids with Dole's reagent. In condusion, these data add scientific support for the use of both metformin and pioglitazone in treatment of IR in NIDDM patients and support a rationale for use of use of these drugs alone, and in conjuction with oral agents and/or INS treatment.
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PMID:Pioglitazone and metformin reverse insulin resistance induced by tumor necrosis factor-alpha in liver cells. 928 74

Imidazoline compounds have been considered for the treatment of type 2 diabetes. We have now investigated the effects of imidazolines on interleukin (IL)-1beta-induced beta-cell apoptosis and the signal transduction pathways involved. Inhibition of Ca2+ influx into beta-cells by D-600, a blocker of voltage-gated L-type Ca2+ channels, suppressed IL-1beta-induced apoptosis. Our data show that calcineurin, Ca2+/calmodulin-dependent serine/threonine protein phosphatase 2B, is responsible for the effect of Ca2+ on beta-cell apoptosis. We also demonstrate that IL-1beta-mediated apoptosis correlates with expression of inducible nitric oxide synthase (iNOS) and the increase in intracellular production of nitric oxide. An inhibitor of cGMP-dependent protein kinase (PKG), KT5823, suppressed IL-1beta-induced apoptosis, suggesting the involvement of a PKG-dependent pathway in the apoptotic process. One of the major findings in this study is that imidazoline compounds RX871024 and efaroxan, suggested as prototypes of a new generation of drugs against type 2 diabetes, can protect against IL-1beta-induced apoptosis in pancreatic beta-cells, possibly by their inhibition of the expression of iNOS, a key element in the IL-1beta-induced apoptotic pathway in pancreatic beta-cells. These data suggest that imidazoline compounds should be explored as a potential therapeutic agent for the treatment of both type 1 and type 2 diabetes.
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PMID:Imidazoline compounds protect against interleukin 1beta-induced beta-cell apoptosis. 1127 6

Insulin resistance (IR) remains one of the major pathogenic mechanisms for non-insulin-dependent type 2 diabetes mellitus. We have previously modelled IR in H-411E liver cells in culture. In past experiments, we used both labeled glucose uptake, lipogenesis, and stimulation of calmodulin gene expression to quantify the ability of the antidiabetic drugs (pioglitazone and metformin) to reverse tumor necrosis factor-alpha (TNF-alpha)-induced IR in these insulin-treated cells. In these current experiments, H-411E liver cells were rendered IR by a combination of TNF-alpha and insulin. In other experiments, the ability of C2 ceramide (Cer) to inhibit insulin action and induce IR was assessed as well as the phospholipase C inhibitor D609 to reverse IR induced by these TNF-alpha-like agents. C2 Cer, like TNF-alpha, inhibited insulin action. D609 reversed TNF-alpha induced--and to a lesser extent, C2 Cer-induced--IR. At selected times, the cells were also treated with troglitazone (TRG) in 2 groups: (1) 1-time exposure and (2) chronic exposure followed by acute exposure. TRG concentrations ranged from 0.015 to 15.0 micromol/L. Our data demonstrate a powerful effect of TRG in reducing IR and restoring insulin sensitivity in TNF-alpha-treated H-411E cells. Furthermore, pretreatment with TRG, reflecting chronic exposure, as in human clinical use, was more potent than 1-time acute exposure. These data support the efficacy of using thiazolidinediones (TRG) in human type 2 diabetes, and support the use of this cell culture model to further study the effects of thiazolidinediones on TNF-alpha-induced insulin resistance.
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PMID:Mechanisms involved in tumor necrosis factor-alpha induction of insulin resistance and its reversal by thiazolidinedione(s). 1152 31

A study of Ca++, Mg++-ATPase activity was carried out in normal (HHm) and diabetic Nigerians of both sexes with insulin-dependent diabetes mellitus (IDDM) and non-insulin dependent diabetes mellitus (NIDDM). The results showed that protein concentration of erythrocyte ghost membranes of healthy humans (HHm) was the highest when compared with protein concentrations of IDDM and NIDDM patients. The protein concentration was lowest in IDDM, while the value in NIDDM was between those of HHm and IDDM. The basal activities of erythrocyte Ca++-ATPase from IDDM and NIDDM were determined and were found to be significantly lower than that of HHm. The addition of calmodulin (CaM) 2 microg/ml stimulated the activity of the calcium pump in all the groups (IDDM, NIDDM and HHm). The effects of calcium (Ca++) and adenosine triphosphate (ATP) on the activity of the pump from each group were determined. Enzyme kinetics (Km and Vmax) revealed that the activity of Ca++, Mg++-ATPase was initiated by ATP in the presence of Ca++ in a dose-dependent manner. Calmodulin also enhanced the activity of the enzyme in the presence of Ca++ in all the groups, though activities in IDDM and NIDDM were significantly lower than in HHm. There was no significant difference in the activities between IDDM and NIDDM. These results suggest a defective calcium translocating mechanism in diabetic Nigerians.
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PMID:Ca++, Mg++-ATPase activity in insulin-dependent and non-insulin dependent diabetic Nigerians. 1171 88

Stimulation of AMP-activated protein kinase (AMPK) in skeletal muscle and liver is seen as an exciting prospect for the treatment of type 2 diabetes. However, we have recently demonstrated that changes in AMPK activity accompany the exposure of pancreatic islet beta-cells to elevated glucose concentrations and may be involved in the activation of insulin secretion. Here, we discuss this hypothesis and explore the potential role of changes in AMPK activity in the actions of other secretagogues. Amino acids decreased AMPK activity in MIN6 beta-cells with an order of potency for inhibition: arg=leu < gln= leu + glu < glucose, which was closely correlated with the stimulation of insulin release (r2=0.76). By contrast, increases in intracellular Ca2+ concentration provoked by cell depolarization with KCl activated AMPK in the face of increased free intracellular ATP concentrations. Elevation of intracellular cAMP levels with isobutylmethylxanthine or forskolin had no effect on AMPK activity. We conclude that metabolizable amino acids regulate AMPK in the beta-cell via increases in the cytosolic ATP/AMP ratio and via phosphorylation by the upstream kinase LKB1. Intracellular Ca2+ ions may activate AMPK by calmodulin kinase 1 kinase-mediated phosphorylation. The latter may act as a novel feedback mechanism to inhibit excessive insulin secretion under some circumstances.
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PMID:AMP-activated protein kinase: a new beta-cell glucose sensor?: Regulation by amino acids and calcium ions. 1556 25

Antipsychotic drugs produce acute behavioral effects through antagonism of dopamine and serotonin receptors, and long-term adaptive responses that are not well understood. The goal of the study presented here was to use Caenorhabditis elegans to investigate the molecular mechanism or mechanisms that contribute to adaptive responses produced by antipsychotic drugs. First-generation antipsychotics, trifluoperazine and fluphenazine, and second-generation drugs, clozapine and olanzapine, increased the expression of tryptophan hydroxylase-1::green fluorescent protein (TPH-1::GFP) and serotonin in the ADF neurons of C. elegans. This response was absent or diminished in mutant strains lacking the transient receptor potential vanilloid channel (TRPV; osm-9) or calcium/calmodulin-dependent protein kinase II (CaMKII; unc-43). The role of calcium signaling was further implicated by the finding that a selective antagonist of calmodulin and a calcineurin inhibitor also enhanced TPH-1::GFP expression. The ADF neurons modulate foraging behavior (turns/reversals off food) through serotonin production. We found that short-term exposure to the antipsychotic drugs altered the frequency of turns/reversals off food. This response was mediated through dopamine and serotonin receptors and was abolished in serotonin-deficient mutants (tph-1) and strains lacking the SER-1 and MOD-1 serotonin receptors. Consistent with the increase in serotonin in the ADF neurons induced by the drugs, drug withdrawal after 24-hr treatment was accompanied by a rebound in the number of turns/reversals, which demonstrates behavioral adaptation in serotonergic systems. Characterization of the cellular, molecular, and behavioral adaptations to continuous exposure to antipsychotic drugs may provide insight into the long-term clinical effects of these medications.
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PMID:Antipsychotic drugs up-regulate tryptophan hydroxylase in ADF neurons of Caenorhabditis elegans: role of calcium-calmodulin-dependent protein kinase II and transient receptor potential vanilloid channel. 1843 26

Excess levels of circulating amino acids (AAs) play a causal role in specific human pathologies, including obesity and type 2 diabetes. Moreover, obesity and diabetes are contributing factors in the development of cancer, with recent studies suggesting that this link is mediated in part by AA activation of mammalian target of rapamycin (mTOR) Complex 1. AAs appear to mediate this response through class III phosphatidylinositol 3-kinase (PI3K), or human vacuolar protein sorting 34 (hVps34), rather than through the canonical class I PI3K pathway used by growth factors and hormones. Here we show that AAs induce a rise in intracellular Ca(2+) ([Ca(2+)](i)), which triggers mTOR Complex 1 and hVps34 activation. We demonstrate that the rise in [Ca(2+)](i) increases the direct binding of Ca(2+)/calmodulin (CaM) to an evolutionarily conserved motif in hVps34 that is required for lipid kinase activity and increased mTOR Complex 1 signaling. These findings have important implications regarding the basic signaling mechanisms linking metabolic disorders with cancer progression.
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PMID:Amino acids activate mTOR complex 1 via Ca2+/CaM signaling to hVps34. 1846 Mar 36

The AMP-activated protein kinase (AMPK) system is a key player in regulating energy balance at both the cellular and whole-body levels, placing it at centre stage in studies of obesity, diabetes and the metabolic syndrome. It is switched on in response to metabolic stresses such as muscle contraction or hypoxia, and modulated by hormones and cytokines affecting whole-body energy balance such as leptin, adiponectin, resistin, ghrelin and cannabinoids. Once activated, it switches on catabolic pathways that generate adenosine triphosphate (ATP), while switching off ATP-consuming anabolic processes. AMPK exists as heterotrimeric complexes comprising a catalytic alpha-subunit and regulatory beta- and gamma-subunits. Binding of AMP to the gamma-subunit, which is antagonized by high ATP, causes activation of the kinase by promoting phosphorylation at threonine (Thr-172) on the alpha-subunit by the upstream kinase LKB1, allowing the system to act as a sensor of cellular energy status. In certain cells, AMPK is activated in response to elevation of cytosolic Ca2+ via phosphorylation of Thr-172 by calmodulin-dependent kinase kinase-beta (CaMKKbeta). Activation of AMPK, either in response to exercise or to pharmacological agents, has considerable potential to reverse the metabolic abnormalities associated with type 2 diabetes and the metabolic syndrome. Two existing classes of antidiabetic drugs, that is, biguanides (for example, metformin) and the thiazolidinediones (for example, rosiglitazone), both act (at least in part) by activation of AMPK. Novel drugs activating AMPK may also have potential for the treatment of obesity.
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PMID:AMPK: a key regulator of energy balance in the single cell and the whole organism. 1871 1

This article highlights studies published during the past year that represent significant scientific achievements in the world of calmodulin kinase cascades. Calmodulin is the primary receptor for calcium present in all cells. The binding of its calcium ligand results in a conformational change in calmodulin, which allows the calcium-calmodulin complex to interact with many different targets. In the studies to be summarized in this review, the particular calmodulin cascade involved is shown to be the pathway responsible for important biological responses, including long-term memory formation, dendritic cell survival, hypercapnia, neuronal migration, synapse formation, autophagy, fatty acid oxidation, and energy balance. In some cases, the pathway was previously unknown, and the identification of the calmodulin cascade represents the definition of roles. In other cases, manipulating the cascade has suggested therapeutic approaches to certain diseases, most significantly, type 2 diabetes and obesity.
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PMID:The Year in Basic Science: calmodulin kinase cascades. 1884 71

The present study dealt with the localization of different calcium-binding proteins (CaBPs) in the pancreatic tissue of non-diabetic and diabetic rats and in rat insulinoma beta-cells (INS-1). Transcripts of CaBPs displayed different expression levels in rat pancreatic tissue and INS-1 cells. Immunohistochemistry demonstrated that three of these proteins, calmodulin, calreticulin and calbindin-D28k, were located predominantly in the pancreatic islets (in both alpha- and beta-cells) of rats, showing weaker labeling of exocrine tissue. Secretagogin was exclusively found within islets. All CaBPs were also immunohistochemically detected in INS-1 cells. Immunohistochemical analysis demonstrates differences in CaBP distributions when comparing the pancreatic tissues of diabetic Goto-Kakizaki rats and non-diabetic Wistar rats. Pancreatic tissue in type 2 diabetic Goto-Kakizaki rats showed significantly higher transcript levels of all CaBPs compared to those in Wistar rats. These results indicate that alterations of CaBPs in pancreatic islets are associated with metabolic disturbances related to type 2 diabetes.
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PMID:Distribution patterns of calcium-binding proteins in pancreatic tissue of non-diabetic as well as type 2 diabetic rats and in rat insulinoma beta-cells (INS-1). 2060 74


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