Wanda Cromlish scite author profile

Protein tyrosine phosphatase-1B (PTP-1B) has been implicated in the negative regulation of insulin signaling. Disruption of the mouse homolog of the gene encoding PTP-1B yielded healthy mice that, in the fed state, had blood glucose concentrations that were slightly lower and concentrations of circulating insulin that were one-half those of their PTP-1B+/+ littermates. The enhanced insulin sensitivity of the PTP-1B-/- mice was also evident in glucose and insulin tolerance tests. The PTP-1B-/- mice showed increased phosphorylation of the insulin receptor in liver and muscle tissue after insulin injection in comparison to PTP-1B+/+ mice. On a high-fat diet, the PTP-1B-/- and PTP-1B+/- mice were resistant to weight gain and remained insulin sensitive, whereas the PTP-1B+/+ mice rapidly gained weight and became insulin resistant. These results demonstrate that PTP-1B has a major role in modulating both insulin sensitivity and fuel metabolism, thereby establishing it as a potential therapeutic target in the treatment of type 2 diabetes and obesity.

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A Natural Disruption of the Secretory Group II Phospholipase A2 Gene in Inbred Mouse Strains

Kennedy

Payette

Mudgett

et al. 1995

Journal of Biological Chemistry

314

294

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The synovial fluid or group II secretory phospholipase A 2 (sPLA 2 ) has been implicated as an important agent involved in a number of inflammatory processes. In an attempt to determine the role of sPLA 2 in inflammation, we set out to generate sPLA 2 -deficient mice. During this investigation, we observed that in a number of inbred mouse strains, the sPLA 2 gene was already disrupted by a frameshift mutation in exon 3. This mutation, a T insertion at position 166 from the ATG of the cDNA, terminates out of frame in exon 4, resulting in the disruption of the calcium binding domain in exon 3 and loss of both activity domains coded by exons 4 and 5. The mouse strains C57BL/6, 129/Sv, and B10.RIII were found to be homozygous for the defective sPLA 2 gene, whereas outbred CD-1:SW mice had variable genotype at this locus. BALB/c, C3H/HE, DBA/1, DBA/2, NZB/B1N, and MRL lpr/lpr mice had a normal sPLA 2 genotype. The sPLA 2 mRNA was expressed at very high levels in the BALB/c mouse small intestine, whereas in the small intestine of the sPLA 2 mutant mouse strains, sPLA 2 mRNA was undetectable. In addition, PLA 2 activity in acid extracts of the small intestine were approximately 40 times higher in BALB/c than in the mutant mice. Transcription of the mutant sPLA 2 gene resulted in multiple transcripts due to exon skipping. None of the resulting mutant mRNAs encoded an active product. The identification of this mutation should not only help define the physiological role of sPLA 2 but also has important implications in mouse inflammatory models developed by targeted mutagenesis.

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The discovery of odanacatib (MK-0822), a selective inhibitor of cathepsin K

Gauthier

Chauret

Cromlish

et al. 2008

Bioorganic & Medicinal Chemistry Letters

423

279

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Biochemical and pharmacological profile of a tetrasubstituted furanone as a highly selective COX‐2 inhibitor

Riendeau

Percival

Boyce

et al. 1997

British J Pharmacology

305

202

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identi®ed as a novel orally active and highly selective cyclo-oxygenase-2 (COX-2) inhibitor. 2 In CHO cells stably transfected with human COX isozymes, DFU inhibited the arachidonic aciddependent production of prostaglandin E 2 (PGE 2 ) with at least a 1,000 fold selectivity for COX-2 (IC 50 =41+14 nM) over COX-1 (IC 50 450 mM). Indomethacin was a potent inhibitor of both COX-1 (IC 50 =18+3 nM) and COX-2 (IC 50 =26+6 nM) under the same assay conditions. The large increase in selectivity of DFU over indomethacin was also observed in COX-1 mediated production of thromboxane B 2 (TXB 2 ) by Ca 2+ ionophore-challenged human platelets (IC 50 450 mM and 4.1+1.7 nM, respectively). 3 DFU caused a time-dependent inhibition of puri®ed recombinant human COX-2 with a K i value of 140+68 mM for the initial reversible binding to enzyme and a k 2 value of 0.11+0.06 s 71 for the ®rst order rate constant for formation of a tightly bound enzyme-inhibitor complex. Comparable values of 62+26 mM and 0.06+0.01 s 71 , respectively, were obtained for indomethacin. The enzyme-inhibitor complex was found to have a 1 : 1 stoichiometry and to dissociate only very slowly (t 1/2 =1 ± 3 h) with recovery of intact inhibitor and active enzyme. The time-dependent inhibition by DFU was decreased by co-incubation with arachidonic acid under non-turnover conditions, consistent with reversible competitive inhibition at the COX active site. 4 Inhibition of puri®ed recombinant human COX-1 by DFU was very weak and observed only at low concentrations of substrate (IC 50 =63+5 mM at 0.1 mM arachidonic acid). In contrast to COX-2, inhibition was time-independent and rapidly reversible. These data are consistent with a reversible competitive inhibition of COX-1. 5 DFU inhibited lipopolysaccharide (LPS)-induced PGE 2 production (COX-2) in a human whole blood assay with a potency (IC 50 =0.28+0.04 mM) similar to indomethacin (IC 50 =0.68+0.17 mM). In contrast, DFU was at least 500 times less potent (IC 50 497 mM) than indomethacin at inhibiting coagulationinduced TXB 2 production (COX-1) (IC 50 =0.19+0.02 mM). 6 In a sensitive assay with U937 cell microsomes at a low arachidonic acid concentration (0.1 mM), DFU inhibited COX-1 with an IC 50 value of 13+2 mM as compared to 20+1 nM for indomethacin. CGP 28238, etodolac and SC-58125 were about 10 times more potent inhibitors of COX-1 than DFU. The order of potency of various inhibitors was diclofenac4indomethacin*naproxen4nimesulide* meloxicam*piroxicam4NS-398*SC-576664SC-581254CGP 28238*etodolac4L-745,3374DFU. 7 DFU inhibited dose-dependently both the carrageenan-induced rat paw oedema (ED 50 of 1.1 mg kg 71 vs 2.0 mg kg 71 for indomethacin) and hyperalgesia (ED 50 of 0.95 mg kg 71 vs 1.5 mg kg 71 for indomethacin). The compound was also e ective at reversing LPS-induced pyrexia in rats (ED 50 =0.76 mg kg 71 vs 1.1 mg kg 71 for indomethacin). 8 In a sensitive model in which 51 Cr faecal excretion was used to assess the integrity of the gastrointestinal tract in rats, no signi®cant e ect was detected after oral...

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Lysosomotropism of Basic Cathepsin K Inhibitors Contributes to Increased Cellular Potencies against Off-Target Cathepsins and Reduced Functional Selectivity

et al. 2005

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The lysosomal cysteine protease cathepsin K is a target for osteoporosis therapy. The aryl-piperazine-containing cathepsin K inhibitor CRA-013783/L-006235 (1) displays greater than 4000-fold selectivity against the lysosomal/endosomal antitargets cathepsin B, L, and S. However, 1 and other aryl-piperazine-containing analogues, including balicatib (10), are approximately 10-100-fold more potent in cell-based enzyme occupancy assays than against each purified enzyme. This phenomenon arises from their basic, lipophilic nature, which results in lysosomal trapping. Consistent with its lysosomotropic nature, 1 accumulates in cells and in rat tissues of high lysosome content. In contrast, nonbasic aryl-morpholino-containing analogues do not exhibit lysosomotropic properties. Increased off-target activities of basic cathepsin K inhibitors were observed in a cell-based cathepsin S antigen presentation assay. No potency increases of basic inhibitors in a functional cathepsin K bone resorption whole cell assay were detected. Therefore, basic cathepsin K inhibitors, such as 1, suffer from reduced functional selectivities compared to those predicted using purified enzyme assays.

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Wanda Cromlish

Increased Insulin Sensitivity and Obesity Resistance in Mice Lacking the Protein Tyrosine Phosphatase-1B Gene

A Natural Disruption of the Secretory Group II Phospholipase A2 Gene in Inbred Mouse Strains

The discovery of odanacatib (MK-0822), a selective inhibitor of cathepsin K

Biochemical and pharmacological profile of a tetrasubstituted furanone as a highly selective COX‐2 inhibitor

Lysosomotropism of Basic Cathepsin K Inhibitors Contributes to Increased Cellular Potencies against Off-Target Cathepsins and Reduced Functional Selectivity

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