A Selective ATP-Binding Cassette Subfamily G Member 2 Efflux Inhibitor Revealed via High-Throughput Flow Cytometry

Authors

J. Jacob Sprouse
Irena Ivnitski-Steele
Hayda M. Khawaja
Dominique Perez
Jerec Ricci
Tuanli Yao
Warren S. Weiner
Chad E. Schroeder
Denise S. Simpson, Cedarville UniversityFollow
Brooks E. Maki
Kelin Li
Jennifer E. Golden
Terry D. Foutz
Anna Waller
Annette E. Evangelisti
Susan M. Young
Stephanie E. Chavez
Mattew J. Garcia
Oleg Ursu
Cristian G. Bologa
Mark B. Carter
Virginia M. Salas
Kristine Gouveia
George P. Tegos
Tudor I. Oprea
Bruce S. Edwards
Jeffery Aubé
Richard S. Larson
Larry A. Sklar

Document Type

Article

Publication Date

1-2013

Journal Title

Journal of Biomolecular Screening

Volume

18

Issue

1

First Page

26

Last Page

38

DOI

10.1177/1087057112456875

Abstract

Chemotherapeutics tumor resistance is a principal reason for treatment failure, and clinical and experimental data indicate that multidrug transporters such as ATP-binding cassette (ABC) B1 and ABCG2 play a leading role by preventing cytotoxic intracellular drug concentrations. Functional efflux inhibition of existing chemotherapeutics by these pumps continues to present a promising approach for treatment. A contributing factor to the failure of existing inhibitors in clinical applications is limited understanding of specific substrate/inhibitor/pump interactions. We have identified selective efflux inhibitors by profiling multiple ABC transporters against a library of small molecules to find molecular probes to further explore such interactions. In our primary screening protocol using JC-1 as a dual-pump fluorescent reporter substrate, we identified a piperazine-substituted pyrazolo[1,5-a]pyrimidine substructure with promise for selective efflux inhibition. As a result of a focused structure-activity relationship (SAR)–driven chemistry effort, we describe compound 1(CID44640177), an efflux inhibitor with selectivity toward ABCG2 over ABCB1. Compound 1 is also shown to potentiate the activity of mitoxantrone in vitro as well as preliminarily in vivo in an ABCG2-overexpressing tumor model. At least two analogues significantly reduce tumor size in combination with the chemotherapeutic topotecan. To our knowledge, low nanomolar chemoreversal activity coupled with direct evidence of efflux inhibition for ABCG2 is unprecedented.

Keywords

multidrug resistance, ABC transporter, ABCG2, ABCB1, efflux inhibition

Recommended Citation

Sprouse, J. Jacob; Ivnitski-Steele, Irena; Khawaja, Hayda M.; Perez, Dominique; Ricci, Jerec; Yao, Tuanli; Weiner, Warren S.; Schroeder, Chad E.; Simpson, Denise S.; Maki, Brooks E.; Li, Kelin; Golden, Jennifer E.; Foutz, Terry D.; Waller, Anna; Evangelisti, Annette E.; Young, Susan M.; Chavez, Stephanie E.; Garcia, Mattew J.; Ursu, Oleg; Bologa, Cristian G.; Carter, Mark B.; Salas, Virginia M.; Gouveia, Kristine; Tegos, George P.; Oprea, Tudor I.; Edwards, Bruce S.; Aubé, Jeffery; Larson, Richard S.; and Sklar, Larry A., "A Selective ATP-Binding Cassette Subfamily G Member 2 Efflux Inhibitor Revealed via High-Throughput Flow Cytometry" (2013). Pharmaceutical Sciences Faculty Publications. 86.
https://digitalcommons.cedarville.edu/pharmaceutical_sciences_publications/86