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  2. A High-Throughput Screen of a Library of Therapeutics Identifies Cytotoxic Substrates of P-glycoprotein

A High-Throughput Screen of a Library of Therapeutics Identifies Cytotoxic Substrates of P-glycoprotein

  • Mol Pharmacol. 2019 Nov;96(5):629-640. doi: 10.1124/mol.119.115964.
Tobie D Lee 1 Olivia W Lee 1 Kyle R Brimacombe 1 Lu Chen 1 Rajarshi Guha 1 Sabrina Lusvarghi 1 Bethilehem G Tebase 1 Carleen Klumpp-Thomas 1 Robert W Robey 1 Suresh V Ambudkar 1 Min Shen 1 Michael M Gottesman 1 Matthew D Hall 2
Affiliations

Affiliations

  • 1 National Center for Advancing Translational Sciences, National Institutes of Health, Rockville, Maryland (T.D.L., O.W.L., K.R.B., L.C., R.G., C.K.-T., M.S., M.D.H.) and Laboratory of Cell Biology, National Cancer Institute, National Institutes of Health, Bethesda, Maryland (S.L., B.G.T., R.W.R., S.V.A., M.M.G.).
  • 2 National Center for Advancing Translational Sciences, National Institutes of Health, Rockville, Maryland (T.D.L., O.W.L., K.R.B., L.C., R.G., C.K.-T., M.S., M.D.H.) and Laboratory of Cell Biology, National Cancer Institute, National Institutes of Health, Bethesda, Maryland (S.L., B.G.T., R.W.R., S.V.A., M.M.G.) hallma@mail.nih.gov.
Abstract

The ATP-binding cassette transporter P-glycoprotein (P-gp) is known to limit both brain penetration and oral bioavailability of many chemotherapy drugs. Although US Food and Drug Administration guidelines require that potential interactions of investigational drugs with P-gp be explored, often this information does not enter the literature. In response, we developed a high-throughput screen to identify substrates of P-gp from a series of chemical libraries, testing a total of 10,804 compounds, most of which have known mechanisms of action. We used the CellTiter-Glo viability assay to test library compounds against parental KB-3-1 human cervical adenocarcinoma cells and the colchicine-selected subline KB-8-5-11 that overexpresses P-gp. KB-8-5-11 cells were also tested in the presence of a P-gp inhibitor (tariquidar) to assess reversibility of transporter-mediated resistance. Of the tested compounds, a total of 90 P-gp substrates were identified, including 55 newly identified compounds. Substrates were confirmed using an orthogonal killing assay against human embryonic kidney-293 cells overexpressing P-gp. We confirmed that AT7159 (cyclin-dependent kinase inhibitor), AT9283, (Janus kinase 2/3 inhibitor), ispinesib (Kinesin spindle protein inhibitor), gedatolisib (PKI-587, phosphoinositide 3-kinase/mammalian target of rampamycin inhibitor), GSK-690693 (Akt Inhibitor), and KW-2478 (heat-shock protein 90 inhibitor) were substrates. In addition, we assessed direct ATPase stimulation. ABCG2 was also found to confer high levels of resistance to AT9283, GSK-690693, and gedatolisib, whereas ispinesib, AT7519, and KW-2478 were weaker substrates. Combinations of P-gp substrates and inhibitors were assessed to demonstrate on-target synergistic cell killing. These data identified compounds whose oral bioavailability or brain penetration may be affected by P-gp. SIGNIFICANCE STATEMENT: The ATP-binding cassette transporter P-glycoprotein (P-gp) is known to be expressed at barrier sites, where it acts to limit oral bioavailability and brain penetration of substrates. In order to identify novel compounds that are transported by P-gp, we developed a high-throughput screen using the KB-3-1 Cancer cell line and its colchicine-selected subline KB-8-5-11. We screened the Mechanism Interrogation Plate (MIPE) library, the National Center for Advancing Translational Science (NCATS) pharmaceutical collection (NPC), the NCATS Pharmacologically Active Chemical Toolbox (NPACT), and a kinase inhibitor library comprising 977 compounds, for a total of 10,804 compounds. Of the 10,804 compounds screened, a total of 90 substrates were identified of which 55 were novel. P-gp expression may adversely affect the oral bioavailability or brain penetration of these compounds.

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