Chemistry-First Approach for Nomination of Personalized Treatment in Lung Cancer | Zendy

Elizabeth A. McMillan | Zendy; Myung-Jeom Ryu | Zendy; Caroline H. Diep | Zendy; Saurabh Mendiratta | Zendy; Jean R. Clemenceau | Zendy; Rachel M. Vaden | Zendy; Ju-Hwa Kim | Zendy; Takashi Motoyaji | Zendy; Kyle R. Covington | Zendy; Michael Peyton | Zendy; Kenneth E. Huffman | Zendy; Xiaofeng Wu | Zendy; Luc Girard | Zendy; Yeojin Sung | Zendy; Pei-Hsaun Chen | Zendy; Prema L. Mallipeddi | Zendy; Joo Young Lee | Zendy; Jordan Hanson | Zendy; Sukesh Voruganti | Zendy; Yunku Yu | Zendy; Sunho Park | Zendy; Jessica Sudderth | Zendy; Christopher DeSevo | Zendy; Donna M. Muzny | Zendy; HarshaVardhan Doddapaneni | Zendy; Adi Gazdar | Zendy; Richard A. Gibbs | Zendy; TaeHyun Hwang | Zendy; John V. Heymach | Zendy; Ignacio I. Wistuba | Zendy; Kevin R. Coombes | Zendy; Noelle S. Williams | Zendy; David A. Wheeler | Zendy; John B. MacMillan | Zendy; Ralph J. DeBerardinis | Zendy; Michael G. Roth | Zendy; Bruce A. Posner | Zendy; John D. Minna | Zendy; Hyun Seok Kim | Zendy; Michael A. White | Zendy

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Chemistry-First Approach for Nomination of Personalized Treatment in Lung Cancer

Author(s) -

Elizabeth A. McMillan,

Myung-Jeom Ryu,

Caroline H. Diep,

Saurabh Mendiratta,

Jean R. Clemenceau,

Rachel M. Vaden,

Ju-Hwa Kim,

Takashi Motoyaji,

Kyle R. Covington,

Michael Peyton,

Kenneth E. Huffman,

Xiaofeng Wu,

Luc Girard,

Yeojin Sung,

Pei-Hsaun Chen,

Prema L. Mallipeddi,

Joo Young Lee,

Jordan Hanson,

Sukesh Voruganti,

Yunku Yu,

Sunho Park,

Jessica Sudderth,

Christopher DeSevo,

Donna M. Muzny,

HarshaVardhan Doddapaneni,

Adi Gazdar,

Richard A. Gibbs,

TaeHyun Hwang,

John V. Heymach,

Ignacio I. Wistuba,

Kevin R. Coombes,

Noelle S. Williams,

David A. Wheeler,

John B. MacMillan,

Ralph J. DeBerardinis,

Michael G. Roth,

Bruce A. Posner,

John D. Minna,

Hyun Seok Kim,

Michael A. White

Publication year - 2018

Publication title -

cell

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 26.304

H-Index - 776

eISSN - 1097-4172

pISSN - 0092-8674

DOI - 10.1016/j.cell.2018.03.028

Subject(s) - biology , druggability , computational biology , cancer , lung cancer , disease , genetics , bioinformatics , gene , pathology , medicine

Diversity in the genetic lesions that cause cancer is extreme. In consequence, a pressing challenge is the development of drugs that target patient-specific disease mechanisms. To address this challenge, we employed a chemistry-first discovery paradigm for de novo identification of druggable targets linked to robust patient selection hypotheses. In particular, a 200,000 compound diversity-oriented chemical library was profiled across a heavily annotated test-bed of >100 cellular models representative of the diverse and characteristic somatic lesions for lung cancer. This approach led to the delineation of 171 chemical-genetic associations, shedding light on the targetability of mechanistic vulnerabilities corresponding to a range of oncogenotypes present in patient populations lacking effective therapy. Chemically addressable addictions to ciliogenesis in TTC21B mutants and GLUT8-dependent serine biosynthesis in KRAS/KEAP1 double mutants are prominent examples. These observations indicate a wealth of actionable opportunities within the complex molecular etiology of cancer.

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