Journal
CANCER CELL
Volume 27, Issue 3, Pages 397-408Publisher
CELL PRESS
DOI: 10.1016/j.ccell.2015.02.005
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Funding
- Starr Cancer Consortium [I5-A560]
- NIH [DP2 0D002750, 5R33CA155554-03, R01 CA136851, T32 CA009172, R01 CA154480, GM074024]
- Huber-Foster fellowship
- Conquer Cancer Foundation of ASCO Young Investigator Award
- AACR-Bristol-Myers Squibb Oncology Fellowship in Clinical Cancer Research [14-40-15-WILS]
- Novartis Institute for BioMedical Research
- National Human Genome Research Institute (NHGRI) [5U54HG003067-11]
- National Cancer Institute (NCI) [U54 CA112962, U01 CA176058]
- Melanoma Research Foundation
- LINCS program [U54 HG006093]
- Novartis
- Bayer
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We conducted a large-scale functional genetic study to characterize mechanisms of resistance to ALK inhibition in ALK-dependent lung cancer cells. We identify members of known resistance pathways and additional putative resistance drivers. Among the latter were members of the P2Y purinergic receptor family of G-protein-coupled receptors (P2Y1, P2Y2, and P2Y6). P2Y receptors mediated resistance in part through a protein-kinase-C (PKC)-dependent mechanism. Moreover, PKC activation alone was sufficient to confer resistance to ALK inhibitors, whereas combined ALK and PKC inhibition restored sensitivity. We observed enrichment of gene signatures associated with several resistance drivers (including P2Y receptors) in crizotinib-resistant ALK-rearranged lung tumors compared to treatment-naive controls, supporting a role for these identified mechanisms in clinical ALK inhibitor resistance.
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