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:C0011849 (diabetes)
277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Reversible phosphorylation of Tyr residues in proteins plays a central role in the transduction of signals. For both SH2 domains and for protein tyrosine phosphatases (PTPs) the phosphate group of phosphotyrosine (pTyr) of peptides provides a key affinity element, but its highly charged nature and its hydrolytic lability render it unsuitable in inhibitor design. The research in the recent years has been addressed to find pTyr bioisosters devoid of the phenylphosphate moiety and more potent inhibitors with less peptidic character. Several derivatives were prepared as pTyr bioisosters, and their activity appears to depend on the nature of the substrate, peptidic or low-molecular weight compounds, in which they are placed. In the field of PTPs, the research was mainly focused on new and selective PTP1B inhibitors, possibly useful in the treatment of Type 2 diabetes. The discovery of non-peptidic low molecular weight compounds able to inhibit PTP1B, by means of docking procedures and HTS screening, and the presence of secondary binding sites on PTP1B afforded new potent and selective inhibitors; several leads devoid of negative charges were also found. To date, however, few compounds have been tested In vivo and found to show a significant activity in diabetic mouse models. Other neutral compounds, mainly quinones, were found to inhibit CD45 and Cdc25. Several papers have appeared in recent years on the discovery of new Grb2, Src, Syk, and Lck SH2 domains binding antagonists. In this field very good inhibitors derived from high affinity peptides were found, with less peptidic character and with a reduced number of negative charges; however the presence of some negative charges, especially the one present on the pTyr bioisoster moiety, seems to be indispensable. As regards Grb2, Src and Lck SH2 domains, rigidification of the starting high affinity binding peptides afforded derivatives with improved affinity; cellular activity was achieved by modification of the side chains of these inhibitors.
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PMID:Inhibitors for proteins endowed with catalytic and non-catalytic activity which recognize pTyr. 1554 73

Protein tyrosine phosphatases (PTPs) catalyze the hydrolysis of phosphotyrosyl (pY) proteins to produce tyrosyl proteins and inorganic phosphate. Specific PTPs inhibitors provide useful tools for studying PTP function in signal transduction processes and potential treatment for human diseases such as diabetes, inflammation, and cancer. In this work, trans-beta-nitrostyrene (TBNS) and its derivatives are found to be slow-binding inhibitors against protein tyrosine phosphatases PTP1B, SHP-1, and Yop with moderate potencies (K(I*) = 1-10 microM). Competition experiments with a substrate (pNPP) and iodoacetate indicate that TBNS is active site-directed. The mechanism of inhibition was investigated by UV-vis absorption spectroscopy, (1)H-(13)C heteronuclear single-quantum correlation NMR spectroscopy, and site-directed mutagenesis. These studies suggested a mechanism in which TBNS acts a pY mimetic and binds to the PTP active site to form an initial noncovalent E.I complex, followed by nucleophilic attack on the TBNS nitro group by Cys-215 of PTP1B to form a reversible, covalent adduct as the tighter E.I* complex. TBNS derivatives represent a new class of neutral pY mimetic inhibitors of PTPs.
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PMID:trans-Beta-nitrostyrene derivatives as slow-binding inhibitors of protein tyrosine phosphatases. 1555 9

Propelled by the identification of a small family of NADPH oxidase (Nox) enzyme homologs that produce superoxide in response to cellular stimulation with various growth factors, renewed interest has been generated in characterizing the signaling effects of reactive oxygen species (ROS) in relation to insulin action. Two key observations made >30 years ago-that oxidants can facilitate or mimic insulin action and that H(2)O(2) is generated in response to insulin stimulation of its target cells-have led to the hypothesis that ROS may serve as second messengers in the insulin action cascade. Specific molecular targets of insulin-induced ROS include enzymes whose signaling activity is modified via oxidative biochemical reactions, leading to enhanced insulin signal transduction. These positive responses to cellular ROS may seem "paradoxical" because chronic exposure to relatively high levels of ROS have also been associated with functional beta-cell impairment and the chronic complications of diabetes. The best-characterized molecular targets of ROS are the protein-tyrosine phosphatases (PTPs) because these important signaling enzymes require a reduced form of a critical cysteine residue for catalytic activity. PTPs normally serve as negative regulators of insulin action via the dephosphorylation of the insulin receptor and its tyrosine-phosphorylated cellular substrates. However, ROS can rapidly oxidize the catalytic cysteine of target PTPs, effectively blocking their enzyme activity and reversing their inhibitory effect on insulin signaling. Among the cloned Nox homologs, we have recently provided evidence that Nox4 may mediate the insulin-stimulated generation of cellular ROS and is coupled to insulin action via the oxidative inhibition of PTP1B, a PTP known to be a major regulator of the insulin signaling cascade. Further characterization of the molecular components of this novel signaling cascade, including the mechanism of ROS generated by insulin and the identification of various oxidation-sensitive signaling targets in insulin-sensitive cells, may provide a novel means of facilitating insulin action in states of insulin resistance.
Diabetes 2005 Feb
PMID:Redox paradox: insulin action is facilitated by insulin-stimulated reactive oxygen species with multiple potential signaling targets. 1567 87

Protein tyrosine phosphatase 1B plays a major role in the negative regulation of insulin signaling, and this establishes protein tyrosine phosphatase 1B as an attractive therapeutic target for diabetes. Bioassay-guided fractionation of the EtOAc-soluble extract of the seeds of Psoralea corylifolia afforded two protein tyrosine phosphatase 1B inhibitory compounds, psoralidin (1) and bakuchiol (2), along with inactive corylin. Compounds 1 and 2 inhibited PTP1B activity in a dose-dependent manner, displaying IC50 values of 9.4 +/- 0.5 microM and 20.8 +/- 1.9 microM, respectively.
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PMID:In vitro protein tyrosine phosphatase 1B inhibitory phenols from the seeds of Psoralea corylifolia. 1567 82

The molecular basis of insulin resistance, a major risk factor for development of Type II diabetes, involves defective insulin signaling. Insulin-mediated signal transduction is negatively regulated by the phosphotyrosine phosphatase, PTP1B, and numerous studies have demonstrated that organo-vanadium compounds, which are nonselective phosphotyrosine phosphatase inhibitors, have insulin-mimetic properties. However, whether or not vanadium compounds can prevent the transition from insulin resistance to overt diabetes is unknown. We compared the ability of bis(maltolato)oxovanadium(IV) (BMOV), an orally bioavailable organo-vanadium compound, and rosiglitazone maleate (RSG), a known insulin sensitizer, to prevent development of diabetes in Zucker diabetic fatty (ZDF) rats. Treatment began at 6 weeks of age when animals are insulin resistant and hyperinsulinemic, but not yet hyperglycemic, and ended at 12 weeks of age, which is 4 weeks after ZDF rats typically develop overt diabetes. BMOV-treated ZDF rats did not develop hyperglycemia, showed significant improvement in insulin sensitivity, and retained normal pancreatic islet morphology and endocrine cell distribution, similar to RSG-treated animals. BMOV and RSG treatment also prevented the hyper-phagia and polydipsia present in untreated ZDF rats; however, BMOV-treated ZDF rats gained much less weight than did RSG-treated animals. Circulating levels of adiponectin decreased in untreated ZDF rats compared to lean controls, but these levels remained normal in BMOV-treated ZDF rats. In contrast, in RSG-treated ZDF rats, plasma adiponectin levels were nearly 4-fold higher than in lean control rats, primarily as a result of a large increase in the amount of low-molecular weight forms of adiponectin in circulation. These data demonstrate that phosphatase inhibition offers a new approach to diabetes prevention, one that may have advantages over current approaches.
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PMID:A nonspecific phosphotyrosine phosphatase inhibitor, bis(maltolato)oxovanadium(IV), improves glucose tolerance and prevents diabetes in Zucker diabetic fatty rats. 1663 95

Protein tyrosine phosphatases (PTPases) and protein tyrosine kinase (PTKases) regulate the phosphorylation and dephosphorylation of tyrosine residues in proteins, events that are essential for a variety of cellular functions. PTPases such as PTP1B and the Yersinia PTPase play an important role in diseases including type II diabetes and bubonic plague. A library of 67 bidentate PTPase inhibitors that are based on the alpha-ketocarboxylic acid motif has been synthesized using parallel solution-phase methods. Two aryl alpha-ketocarboxylic acids were tethered to a variety of different diamine linkers through amide bonds. The compounds were assayed in crude form against the Yersinia PTPase, PTP1B, and TCPTP. Six compounds were selected for further evaluation, in purified form, against the Yersinia PTPase, PTP1B, TCPTP, LAR, and CD45. These compounds had IC50 values in the low micromolar range against the Yersinia PTPase, PTP1B, and TCPTP, showed good selectivity for PTP1B over LAR, and modest selectivity over CD45. The correlation between linker structure and inhibitor activity shows that aromatic groups in the linker can play an important role in determining binding affinity in this class of inhibitors.
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PMID:Investigations of linker structure on the potency of a series of bidentate protein tyrosine phosphatase inhibitors. 1578 8

The fluorogenic reagent 4-(aminosulfonyl)-7-fluoro-2,1,3-benzoxadiazole (ABDF) attenuates the functional activity of the protein tyrosine phosphatase PTP1B by reacting selectively with a single cysteine residue, leaving other cysteines in the protein unmodified. This modification reduces Vmax without substantially affecting substrate binding (Km), indicative of an allosteric mode of inhibition. Consistent with this, the cysteine residue modified by ABDF, Cys 121, lies outside the catalytic site but makes interactions with residues that contact His 214, which has been shown to be important for catalysis. Cys 121 is highly conserved among phosphatases, and ABDF also inhibits TC-PTP and LAR. These findings illustrate that targeting cysteine residues outside catalytic sites may be exploited in allosterically regulating enzymes. Moreover, these results suggest a new strategy for inhibiting a promising diabetes target.
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PMID:Allosteric inhibition of PTP1B activity by selective modification of a non-active site cysteine residue. 1590 85

Adipose tissue plays a crucial role in energy homeostasis not only in storing triglyceride, but also responding to nutrient, neural, and hormonal signals, and producing factors which control feeding, thermogenesis, immune and neuroendocrine function, and glucose and lipid metabolism. Adipose tissue secretes leptin, steroid hormones, adiponectin, inflammatory cytokines, resistin, complement factors, and vasoactive peptides. The endocrine function of adipose tissue is typified by leptin. An increase in leptin signals satiety to neuronal targets in the hypothalamus. Leptin activates Janus-activating kinase2 (Jak2) and STAT 3, resulting in stimulation of anorexigenic peptides, e.g., alpha-MSH and CART, and inhibition of orexigenic peptides, e.g., NPY and AGRP. The reduction in leptin levels during fasting stimulates appetite, decreases thermogenesis, thyroid and reproductive hormones, and increases glucocorticoids. Leptin also stimulates fatty acid oxidation, insulin release, and peripheral insulin action. These effects involve regulation of PI-3 kinase, PTP-1B, suppressor of cytokine signaling-3 (SOCS-3), and AMP-activated protein kinase in the brain and peripheral organs. There is emerging evidence that leptin, adiponectin, and resistin act through overlapping pathways. Understanding the signal transduction of adipocyte hormones will provide novel insights on the pathogenesis and treatment of obesity, diabetes, and various metabolic disorders.
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PMID:Adipokines that link obesity and diabetes to the hypothalamus. 1687 74

Protein tyrosine phosphatases (PTPs) have key roles in a diverse range of cellular processes, and their dysregulation is associated with several human diseases. Many PTPs are recognized as potential drug targets; however, inhibitor development has focused only on a small number of enzymes, most notably PTP1B for type II diabetes and obesity, and MKP1 and CDC25 for cancer. The future challenge of selective-inhibitor development for PTPs will be significantly facilitated by the recent rapid progress in the structural biology of the 'PTPome'. In this article, we focus on the family of mitogen-activated protein kinase (MAPK)-specific tyrosine phosphatases--PTPN5 [also called striatal-enriched phosphatase (STEP)], PTPN7 (also called hematopoietic PTP) and PTPRR (also called PC12 PTP or STEP-like PTP)--and discuss approaches for achieving selectivity for the MAPK-PTPs at the molecular level using recently determined high-resolution X-ray crystal structures. We believe that the development of specific inhibitors would provide a valuable set of experimental pharmacological tools for investigating the physiological role of these phosphatases and exploring their emerging role in human disease.
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PMID:MAPK-specific tyrosine phosphatases: new targets for drug discovery? 1691 85

Metabolic deregulation accompanying type II diabetes is characterized by insulin resistance in peripheral tissues (liver, muscle, and adipose), mediated by impairments in insulin receptor (IR) signaling. Two closely-related protein tyrosine phosphatases, PTP1B and TCPTP both showed abilities to negatively regulate insulin receptor signaling. In order to test whether these two phosphatases can act synergistically, hydrodynamic injection was applied to deliver small interfering RNA (siRNA) of PTP1B and/or TCPTP to mouse liver. By measuring insulin-sensitive reporter gene expression and plasma glucose of diabetic mice, we found siRNA of PTP1B or TCPTP alone can sensitize insulin signal transduction, but combined treatment of both siRNAs had no better effects than siRNA of PTP1B. These results suggested siRNA of PTP1B and TCPTP can strengthen insulin signaling, but their effects do not appear to be synergistic in mouse liver.
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PMID:Effects of small interference RNA against PTP1B and TCPTP on insulin signaling pathway in mouse liver: evidence for non-synergetic cooperation. 1708 77


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