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:C0028754 (obesity)
124,988 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Nonalcoholic steatohepatitis (NASH) and alcoholic steatohepatitis (ASH) and typically are indistinguishable, histologically. The diagnosis relies on reporting of alcohol consumption. The metabolic syndrome involving insulin resistance is associated with nonalcoholic fatty liver disease (NAFLD). Protein tyrosine phosphatase 1B (PTP1B) negatively regulates the insulin receptor (IR). Increased PTP1B expression is seen in obesity and possibly is responsible for the insulin resistance seen in the metabolic syndrome. The study objective was to determine whether biopsy specimens with steatohepatitis could be classified accurately as alcoholic or nonalcoholic by immunohistochemical stains. We selected 241 cases of steatohepatitis, comprising 53 and 188 cases of alcoholic and NAFLD, respectively. Specimens were stained with PTP1B and IR (b subunit) and classified as NASH or ASH. The staining pattern predicted 60 cases of ASH and 181 cases of NASH. Results correlated with clinical diagnoses in 70% and 88% of ASH and NASH cases, respectively (odds ratio, 16.6; 95% confidence interval, 8.2-35.4).
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PMID:The use of protein tyrosine phosphatase 1B and insulin receptor immunostains to differentiate nonalcoholic from alcoholic steatohepatitis in liver biopsy specimens. 1574 53

Protein tyrosine phosphatase 1B (PTP1B) is an enzyme that plays a critical role in down-regulating insulin signaling through dephosphorylation of the insulin receptor. Studies have shown that PTP1B knock-out mice showed increased insulin sensitivity in muscle and liver as well as resistance to obesity. A series of functionalized acetophenones were synthesized and evaluated for their PTP1B inhibitory activity. Some of the screened compounds displayed good inhibitory activity.
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PMID:Synthesis of functionalized acetophenones as protein tyrosine phosphatase 1B inhibitors. 1595 Nov 72

Protein tyrosine phosphatase 1B (PTP1B) is involved in multiple signaling pathways by down-regulating several tyrosine kinases. For example, gene-targeting studies in mice have established PTP1B as a critical physiologic regulator of metabolism by attenuating insulin signaling. PTP1B is an important target for the treatment of diabetes, because the PTP1B null mice are resistant to diet-induced diabetes and obesity. On the other hand, despite the potential for enhanced oncogenic signaling in the absence of PTP1B, PTP1B null mice do not develop spontaneous tumors. Because the majority of human cancers harbor mutations in p53, we generated p53/PTP1B double null mice to elucidate the role of PTP1B in tumorigenesis. We show that genetic ablation of PTP1B in p53 null mice decreases survival rate and increases susceptibility towards the development of B lymphomas. This suggested a role for PTP1B in lymphopoiesis, and we report that PTP1B null mice have an accumulation of B cells in bone marrow and lymph nodes, which contributed to the increased incidence of B lymphomas. The mean time of tumor development and tumor spectrum are unchanged in p53-/-PTP1B+/- mice. We conclude that PTP1B is an important determinant of the latency and type of tumors in a p53-deficient background through its role in the regulation of B-cell development.
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PMID:Genetic ablation of protein tyrosine phosphatase 1B accelerates lymphomagenesis of p53-null mice through the regulation of B-cell development. 1626 35

Protein tyrosine phosphatase 1B (PTP1B) is a key element in the negative regulation of the insulin signaling pathway and may play an important role in diabetes and obesity. We identified ursolic acid, a natural pentacyclic triterpenoid that occurs widely in traditional Chinese medicinal herbs, as an inhibitor of PTP1B by screening an extract library of the traditional Chinese medicinal herbs used a diabetes clinic. By modifying urosolic acid, we designed and synthesized a derivative with a K(i) of 283 nM. As competitive inhibitors of PTP1B, ursolic acid and its derivative also inhibit T-cell protein tyrosine phosphatase and src homology phosphatase-2 but not leucocyte antigen-related phosphatase or protein tyrosine phosphatase alpha and epsilon, which are all possibly involved in the insulin pathway. The ursolic acid derivative enhanced insulin receptor phosphorylation in CHO/hIR cells and stimulate glucose uptake in L6 myotubes.
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PMID:Ursolic acid and its derivative inhibit protein tyrosine phosphatase 1B, enhancing insulin receptor phosphorylation and stimulating glucose uptake. 1682 71

Protein tyrosine phosphatase 1B (PTP1B) is a potential drug target for the treatment of Type 2 diabetes and obesity. The design of PTP1B inhibitors as therapeutic agents has been hampered mostly owing to their poor cell permeability and oral bioavailability. In the present study, we investigated the cellular activity of PTP1B inhibitors in relation to the 3D structure using classical VolSurf analysis. A model based on the VolSurf descriptors for a set of 80 compounds of PTP1B inhibitors, half of which display cellular activity, was analyzed using the principal components analysis (PCA) approach. The PCA model was applied to predict the cellular activities of an external data set of 40 PTP1B inhibitors and satisfactory results were obtained. Further partial least squares (PLS) analysis revealed useful information about the behavior of the Volsurf descriptors in predicting the cell permeability and pharmacokinetic properties of PTP1B inhibitors. In silico ADME studies provide a valuable tool in the development of effective PTP1B inhibitors as drug candidates.
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PMID:In silico modeling of protein tyrosine phosphatase 1B inhibitors with cellular activity. 1699 33

Protein tyrosine phosphatase 1B (PTP1B) is considered as a therapeutic target for the treatment of diabetes and obesity. In our preliminary screening study, a MeOH extract of the aerial part of Siegesbeckia glabrescens was found to inhibit PTP1B activity at 30 microg/mL. Bioassay-guided fractionation led to the isolation of two active diterpenes, ent-16betaH, 17-isobutyryloxy-kauran-19-oic acid (1) and ent-16betaH, 17-acetoxy-18-isobutyryloxy-kauran-19-oic acid (2), along with ent- 16betaH, 17-hydroxykauran-19-oic acid (3). Compounds 1 and 2 inhibited the PTP1B activity with IC50 values of 8.7 +/- 0.9 and 30.6 +/- 2.1 microM, respectively. Kinetic studies suggest that both 1 and 2 are non-competitive inhibitors of PTP1B. However, compound 3 substituted with a hydroxyl group at C-17 in kaurane-type showed no inhibitory effects towards PTP1B.
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PMID:PTP1B inhibitory activity of kaurane diterpenes isolated from Siegesbeckia glabrescens. 1705 69

Protein tyrosine phosphatase 1B (PTP-1B) is an enzyme that plays a critical role in down-regulating insulin signaling through dephosphorylation of the insulin receptor. Studies have shown that PTP-1B knockout mice showed increased insulin sensitivity in muscle and liver as well as resistance to obesity. A series of hydroxy benzofuran methyl ketones and their naturally mimicking dimers and linear and angular furanochalcones and flavones have been evaluated as PTP-1B inhibitors. Screened compounds displayed good inhibitory activity.
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PMID:Synthesis of benzofuran scaffold-based potential PTP-1B inhibitors. 1709 32

Protein tyrosine phosphatase 1B (PTP1B) negatively regulates insulin signaling, and PTP1B inhibitors have been seen as promising therapeutic agents against obesity and type 2 diabetes. Here we report that the marine natural product hyrtiosal, from the marine sponge Hyrtios erectus, has been discovered to act as a PTP1B inhibitor and to show extensive cellular effects on PI3K/AKT activation, glucose transport, and TGFbeta/Smad2 signaling. This inhibitor wad able to inhibit PTP1B activity in dose-dependent fashion, with an IC(50) value of 42 microM in a noncompetitive inhibition mode. Further study with an IN Cell Analyzer 1000 cellular fluorescence imaging instrument showed that hyrtiosal displayed potent activity in abolishing the retardation of AKT membrane translocation caused by PTP1B overexpression in CHO cells. Moreover, it was found that this newly identified PTP1B inhibitor could dramatically enhance the membrane translocation of the key glucose transporter Glut4 in PTP1B-overexpressed CHO cells. Additionally, in view of our recent finding that PTP1B was able to modulate insulin-mediated inhibition of Smad2 activation, hyrtiosal was also tested for its capabilities in the regulation of Smad2 activity through the PI3K/AKT pathway. The results showed that hyrtiosal could effectively facilitate insulin inhibition of Smad2 activation. Our current study is expected to supply new clues for the discovery of PTP1B inhibitors from marine natural products, while the newly identified PTP1B inhibitor hyrtiosal might serve as a potential lead compound for further research.
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PMID:Hyrtiosal, a PTP1B inhibitor from the marine sponge Hyrtios erectus, shows extensive cellular effects on PI3K/AKT activation, glucose transport, and TGFbeta/Smad2 signaling. 1718 21

Protein tyrosine phosphatase 1B (PTP1B) is an important drug target for the treatment of type II diabetes and obesity. There are strong indications that a novel class of allosteric inhibitors act by preventing the closure of the WPD-loop [C. Wiesmann, K.J. Barr, J. Kung, J. Zhu, D.A. Erlanson, W. Shen, B.J. Fahr, M. Zhong, L. Taylor, M. Randall, R.S. McDowell, S.K. Hansen, Allosteric inhibition of protein tyrosine phosphatase 1B, Nat. Struc. Mol. Biol. 11 (2004) 730-737.], which is absolutely essential for the catalytic activity of PTP1B. In this work, we develop force field parameters for one of these inhibitors (BB3), and subsequently utilise standard and targeted molecular dynamics simulations to perform a study of WPD-loop mobility in the presence of this inhibitor. We demonstrate that BB3 not only significantly reduces the flexibility of the WPD-loop compared to both the apo-enzyme or the closed conformation complexed with phosphotyrosine, but that this is accompanied by reduced flexibility in a related region, the S-loop, further emphasising the possibility of manipulating this region when designing novel inhibitors for PTP1B.
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PMID:A molecular dynamics study of WPD-loop flexibility in PTP1B. 1740 95

Protein tyrosine phosphatase 1B (PTP1B) is an effective target for the treatment of both type 2 diabetes and obesity; however, targeting PTP1B for drug discovery is challenging because of the highly conserved and positively charged active-site pocket. Tremendous progress has been made in the development of potent and selective PTP1B inhibitors that engage both the active site and no catalytic sites. Several strategies are being pursued to improve the pharmacological properties of PTP1B inhibitors. These new developments suggest that it is feasible to acquire PTP1B-based, small-molecule therapeutics with the requisite potency and selectivity. Future efforts will probably transform the potent and selective PTP1B inhibitors into orally available drugs with desirable physicochemical properties and in vivo efficacies.
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PMID:PTP1B as a drug target: recent developments in PTP1B inhibitor discovery. 1746 73


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