Characterizing the developmental pathways TTF-1, NKX2–8, and PAX9 in lung cancer
- David S. Hsua,b,
- Chaitanya R. Acharyaa,
- Bala S. Balakumarana,
- Richard F. Riedela,b,
- Mickey K. Kima,
- Marvaretta Stevensona,b,
- Sascha Tuchmana,b,
- Sayan Mukherjeea,c,
- William Barrya,c,
- Holly K. Dressmana,
- Joseph R. Nevinsa,b,
- Scott Powersd,e,
- David Muf,12 and
- Anil Pottia,b,12
- aInstitute for Genome Sciences and Policy,
- bDepartment of Medicine, and
- cInstitute for Statistics and Decision Sciences, Duke University, Durham, NC 27710;
- dCold Spring Harbor Laboratory, Cold Spring Harbor, NY 11724;
- eCancer Genome Center, Cold Spring Harbor Laboratory, Woodbury, NY 11724; and
- fDepartment of Pathology, Penn State University College of Medicine, Hershey, PA 17033
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↵1D.M. and A.P. contributed equally to this work.
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Communicated by Aziz Sancar, University of North Carolina, Chapel Hill, NC, January 26, 2009 (received for review November 17, 2008)
Abstract
We investigated the clinical implications of lung developmental transcription factors (TTF-1, NKX2–8, and PAX9) that we recently discovered as cooperating oncogenes activated by way of gene amplification at chromosome 14q13 in lung cancer. Using stable transfectants of human bronchial epithelial cells, RNA expression profiles (signatures) representing activation of the biological pathways defined by each of the 3 genes were determined and used to risk stratify a non-small-cell lung cancer (NSCLC) clinical data set consisting of 91 early stage tumors. Coactivation of the TTF-1 and NKX2–8 pathways identified a cluster of patients with poor survival, representing ≈20% of patients with early stage NSCLC, whereas activation of individual pathways did not reveal significant prognostic power. Importantly, the poor prognosis associated with coactivation of TTF-1 and NKX2–8 was validated in 2 other independent clinical data sets. Furthermore, lung cancer cell lines showing coactivation of the TTF-1 and NKX2–8 pathways were shown to exhibit resistance to cisplatin, the standard of care for the treatment of NSCLC. This suggests that the cohort of patients with coactivation of TTF-1 and NKX2–8 pathways appears to be resistant to standard cisplatin therapy, suggesting the need for alternative therapies in this cohort of high-risk patients.
Footnotes
- 2To whom correspondence may be addressed. E-mail: anil.potti{at}duke.edu or davidmu{at}hmc.psu.edu
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Author contributions: D.S.H., B.S.B., S.P., D.M., and A.P. designed research; D.S.H., C.R.A., B.S.B., R.F.R., M.K.K., and D.M. performed research; M.S. and S.T. contributed new reagents/analytical tools; D.S.H., C.R.A., R.F.R., M.K.K., M.S., S.M., W.B., H.K.D., J.R.N., S.P., D.M., and A.P. analyzed data; and D.S.H., J.R.N., S.P., D.M., and A.P. wrote the paper.
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The authors declare no conflict of interest.
