David Woody scite author profile

David Woody

3Publications

57Citation Statements Received

69Citation Statements Given

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124

Affiliations

Janssen (United States), The University of Texas at San Antonio

Publications

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Identification and SAR of Glycine Benzamides as Potent Agonists for the GPR139 Receptor

Dvorak

Coate

Nepomuceno

et al. 2015

ACS Med. Chem. Lett.

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A focused high throughput screening for GPR139 was completed for a select 100K compounds, and new agonist leads were identified. Subsequent analysis and structure-activity relationship studies identified (S)-3-chloro-N-(2-oxo-2-((1-phenylethyl)amino)ethyl)benzamide 7c as a potent and selective agonist of hGPR139 with an EC50 = 16 nM. The compound was found to cross the blood-brain barrier and have good drug-like properties amenable for oral dosing in rat.

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Asymmetric Bisvinylogous Aldolation of Aldehydes via 2-Oxonia-Cope Rearrangement Enabling Total Stereochemical Control

2018

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Development of phenotypic assays for identifying novel blockers of L-type calcium channels in neurons

Hagan

Rex

Woody

et al. 2021

Sci Rep

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L-type calcium channels (LTCCs) are highly expressed in the heart and brain and are critical for cardiac and neuronal functions. LTCC-blocking drugs have a long and successful record in the clinic for treating cardiovascular disorders. In contrast, establishment of their efficacy for indications of the central nervous system remains challenging given the tendency of existing LTCC drugs being functionally and mechanistically more selective for peripheral tissues. LTCCs in vivo are large macromolecular complexes consisting of a pore-forming subunit and other modulatory proteins, some of which may be neuro-specific and potentially harbor mechanisms for neuronal selectivity. To exploit the possibility of identifying mechanistically novel and/or neuro-selective blockers, we developed two phenotypic assays—a calcium flux-based primary screening assay and a patch clamp secondary assay, using rat primary cortical cultures. We screened a library comprised of 1278 known bioactive agents and successfully identified a majority of the potent LTCC-blocking drugs in the library. Significantly, we identified a previously unrecognized LTCC blocker with a novel mechanism, which was corroborated by patch clamp and binding studies. As such, these phenotypic assays are robust and represent an important step towards identifying mechanistically novel and neuro-selective LTCC blockers.

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David Woody

Identification and SAR of Glycine Benzamides as Potent Agonists for the GPR139 Receptor

Asymmetric Bisvinylogous Aldolation of Aldehydes via 2-Oxonia-Cope Rearrangement Enabling Total Stereochemical Control

Development of phenotypic assays for identifying novel blockers of L-type calcium channels in neurons

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