Angela L. Howard scite author profile

Autotaxin (ATX) is a secreted glycoprotein with lysophospholipase D (LPLD) activity that generates the bioactive lipid lysophosphatidic acid (LPA) from lysophosphatidylcholine (LPC). Both ATX and LPA have been linked to the promotion and progression of cancer as well as cardiovascular disease and obesity. Despite the fact that ATX inhibitors have the potential to be useful chemotherapeutics for multiple indications, few examples of potent ATX inhibitors are described in the current literature. Here we describe the development of pharmacophore models for the inhibition of ATX by nonlipids and apply these tools to the discovery of additional ATX inhibitors using the NCI open chemical repository database. From this database of > 250,000 compounds, 168 candidate inhibitors were identified. Of these candidates, 106 were available for testing and 33 were identified as active (those that inhibited ATX activity by > or =50% at a single 10 microM concentration), a 31% hit rate. Five of these compounds had IC(50) < 1.5 microM and the most potent compound possessed a K(i) of 271 nM.

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Optimization of a Pipemidic Acid Autotaxin Inhibitor

Hoeglund

Bostic

Howard³

et al. 2009

J. Med. Chem.

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Autotaxin (ATX, NPP2) has recently been shown to be the lysophospholipase D responsible for synthesis of the bioactive lipid lysophosphatidic acid (LPA). LPA has a well-established role in cancer, and the production of LPA is consistent with the cancer-promoting actions of ATX. Increased ATX and LPA receptor expression have been found in numerous cancer cell types. The current study has combined ligand-based computational approaches (binary quantitative structure-activity relationship), medicinal chemistry, and experimental enzymatic assays to optimize a previously identified small molecule ATX inhibitor, H2L 7905958 (1). Seventy prospective analogs were analyzed via computational screening, from which 30 promising compounds were synthesized and screened to assess efficacy, potency, and mechanism of inhibition. This approach has identified four analogs as potent as or more potent than the lead. The most potent analog displayed an IC(50) of 900 nM with respect to ATX-mediated FS-3 hydrolysis with a K(i) of 700 nM, making this compound approximately 3-fold more potent than the previously described lead.

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Characterization of non-lipid autotaxin inhibitors

Hoeglund

Howard

Wanjala

et al. 2010

Bioorganic & Medicinal Chemistry

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Supercritical Fluid Extraction of Environmental Analytes Using Trifluoromethane

Howard

Yoo

Taylor

et al. 1993

Journal of Chromatographic Science

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Considerations for analytical supercritical fluid extraction of sulfonyl ureas employing a modified fluid

Howard¹,

Taylor²

1993

J. High Resol. Chromatogr.

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Important considerations are discussed for analytical SFEmethod development employing methanolmodified carbon dioxide and solid-phase trapping.The focus of this study was to break the method development procedure into distinct steps so that the origins of low recoveries could be determined conclusively. Sulfonyl urea herbicides were used as probe analytes. Analyte solubility, analyte trapping, analyte trap removal (solidphase), and extract analysis were all shown to be equally important in achieving quantitative SFE recoveries.

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Angela L. Howard

Pharmacophore Development and Application Toward the Identification of Novel, Small-Molecule Autotaxin Inhibitors

Optimization of a Pipemidic Acid Autotaxin Inhibitor

Characterization of non-lipid autotaxin inhibitors

Supercritical Fluid Extraction of Environmental Analytes Using Trifluoromethane

Considerations for analytical supercritical fluid extraction of sulfonyl ureas employing a modified fluid

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