Functional annotation of rare gene aberration drivers of pancreatic cancer

Yiu Huen Tsang; Turgut Dogruluk; Philip M. Tedeschi; Joanna Wardwell‐Ozgo; Hengyu Lu; Maribel Espitia; Nikitha Nair; Rosalba Minelli; Zechen Chong; Fengju Chen; Qing Chang; Jennifer B. Dennison; Armel Dogruluk; Min Li; Haoqiang Ying; Joseph R. Bertino; Marie‐Claude Gingras; Michael Ittmann; John E. Kerrigan; Ken Chen; Chad J. Creighton; Karina Eterovic; Gordon B. Mills; Kenneth L. Scott

doi:10.1038/ncomms10500

Functional annotation of rare gene aberration drivers of pancreatic cancer

Yiu Huen Tsang(Baylor College of Medicine), Turgut Dogruluk(Baylor College of Medicine), Philip M. Tedeschi(Rutgers, The State University of New Jersey), Joanna Wardwell‐Ozgo(Baylor College of Medicine), Hengyu Lu(Baylor College of Medicine), Maribel Espitia(The University of Texas MD Anderson Cancer Center), Nikitha Nair(Baylor College of Medicine), Rosalba Minelli(Baylor College of Medicine), Zechen Chong(The University of Texas MD Anderson Cancer Center), Fengju Chen(Baylor College of Medicine), Qing Chang(The University of Texas MD Anderson Cancer Center), Jennifer B. Dennison(The University of Texas MD Anderson Cancer Center), Armel Dogruluk(Baylor College of Medicine), Min Li(Baylor College of Medicine), Haoqiang Ying(The University of Texas MD Anderson Cancer Center), Joseph R. Bertino(Rutgers, The State University of New Jersey), Marie‐Claude Gingras(Baylor College of Medicine), Michael Ittmann(Baylor College of Medicine), John E. Kerrigan(Rutgers, The State University of New Jersey), Ken Chen(The University of Texas MD Anderson Cancer Center), Chad J. Creighton(Baylor College of Medicine), Karina Eterovic(The University of Texas MD Anderson Cancer Center), Gordon B. Mills(The University of Texas MD Anderson Cancer Center), Kenneth L. Scott(Baylor College of Medicine)

Nature Communications

January 25, 2016

10.1038/ncomms10500

Cited by 88Open Access

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Abstract

As we enter the era of precision medicine, characterization of cancer genomes will directly influence therapeutic decisions in the clinic. Here we describe a platform enabling functionalization of rare gene mutations through their high-throughput construction, molecular barcoding and delivery to cancer models for in vivo tumour driver screens. We apply these technologies to identify oncogenic drivers of pancreatic ductal adenocarcinoma (PDAC). This approach reveals oncogenic activity for rare gene aberrations in genes including NAD Kinase (NADK), which regulates NADP(H) homeostasis and cellular redox state. We further validate mutant NADK, whose expression provides gain-of-function enzymatic activity leading to a reduction in cellular reactive oxygen species and tumorigenesis, and show that depletion of wild-type NADK in PDAC cell lines attenuates cancer cell growth in vitro and in vivo. These data indicate that annotating rare aberrations can reveal important cancer signalling pathways representing additional therapeutic targets.

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