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The solute carrier SLC35F2 enables YM155-mediated DNA damage toxicity.

Georg E Winter ,
Branka Radic ,
Cristina Mayor-Ruiz ,
Vincent A Blomen ,
Claudia Trefzer ,
Richard K Kandasamy ,
Kilian V M Huber ,
Manuela Gridling ,
Doris Chen ,
Thorsten Klampfl ,
Robert Kralovics ,
Stefan Kubicek ,
Oscar Fernandez-Capetillo ,
Thijn R Brummelkamp ,
Giulio Superti-Furga

Abstract

Genotoxic chemotherapy is the most common cancer treatment strategy. However, its untargeted generic DNA-damaging nature and associated systemic cytotoxicity greatly limit its therapeutic applications. Here, we used a haploid genetic screen in human cells to discover an absolute dependency of the clinically evaluated anticancer compound YM155 on solute carrier family member 35 F2 (SLC35F2), an uncharacterized member of the solute carrier protein family that is highly expressed in a variety of human cancers. YM155 generated DNA damage through intercalation, which was contingent on the expression of SLC35F2 and its drug-importing activity. SLC35F2 expression and YM155 sensitivity correlated across a panel of cancer cell lines, and targeted genome editing verified SLC35F2 as the main determinant of YM155-mediated DNA damage toxicity in vitro and in vivo. These findings suggest a new route to targeted DNA damage by exploiting tumor and patient-specific import of YM155.

More about this publication

Nature chemical biology

Volume 10
Issue nr. 9
Pages 768-773
Publication date 01-09-2014

Full text links

Publisher website (DOI) 10.1038/nchembio.1590
Europe PubMed Central 25064833
Pubmed 25064833

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