TY - JOUR
T1 - Characteristics of lung cancers harboring NRAS mutations
AU - Ohashi, Kadoaki
AU - Sequist, Lecia V.
AU - Arcila, Maria E.
AU - Lovly, Christine M.
AU - Chen, Xi
AU - Rudin, Charles M.
AU - Moran, Teresa
AU - Camidge, David Ross
AU - Vnencak-Jones, Cindy L.
AU - Berry, Lynne
AU - Pan, Yumei
AU - Sasaki, Hidefumi
AU - Engelman, Jeffrey A.
AU - Garon, Edward B.
AU - Dubinett, Steven M.
AU - Franklin, Wilbur A.
AU - Riely, Gregory J.
AU - Sos, Martin L.
AU - Kris, Mark G.
AU - Dias-Santagata, Dora
AU - Ladanyi, Marc
AU - Bunn, Paul A.
AU - Pao, William
PY - 2013/5/1
Y1 - 2013/5/1
N2 - Purpose: We sought to determine the frequency and clinical characteristics of patients with lung cancer harboring NRAS mutations. We used preclinical models to identify targeted therapies likely to be of benefit against NRAS-mutant lung cancer cells. Experimental Design: We reviewed clinical data from patients whose lung cancers were identified at six institutions or reported in the Catalogue of Somatic Mutations in Cancer (COSMIC) to harbor NRAS mutations. Six NRAS-mutant cell lines were screened for sensitivity against inhibitors of multiple kinases (i.e., EGFR, ALK, MET, IGF-1R, BRAF, PI3K, and MEK). Results: Among 4,562 patients with lung cancers tested, NRAS mutations were present in 30 (0.7%; 95% confidence interval, 0.45%-0.94%); 28 of these had no other driver mutations. 83% had adenocarcinoma histology with no significant differences in gender. While 95% of patients were former or current smokers, smoking-related G:C>T:A transversions were significantly less frequent in NRAS-mutated lung tumors than KRAS-mutant non-small cell lung cancer [NSCLC; NRAS: 13% (4/30), KRAS: 66% (1772/2733), P < 0.00000001]. Five of 6 NRAS-mutant cell lines were sensitive to the MEK inhibitors, selumetinib and trametinib, but not to other inhibitors tested. Conclusion: NRAS mutations define a distinct subset of lung cancers (∼1%) with potential sensitivity to MEK inhibitors. Although NRAS mutations are more common in current/former smokers, the types of mutations are not those classically associated with smoking.
AB - Purpose: We sought to determine the frequency and clinical characteristics of patients with lung cancer harboring NRAS mutations. We used preclinical models to identify targeted therapies likely to be of benefit against NRAS-mutant lung cancer cells. Experimental Design: We reviewed clinical data from patients whose lung cancers were identified at six institutions or reported in the Catalogue of Somatic Mutations in Cancer (COSMIC) to harbor NRAS mutations. Six NRAS-mutant cell lines were screened for sensitivity against inhibitors of multiple kinases (i.e., EGFR, ALK, MET, IGF-1R, BRAF, PI3K, and MEK). Results: Among 4,562 patients with lung cancers tested, NRAS mutations were present in 30 (0.7%; 95% confidence interval, 0.45%-0.94%); 28 of these had no other driver mutations. 83% had adenocarcinoma histology with no significant differences in gender. While 95% of patients were former or current smokers, smoking-related G:C>T:A transversions were significantly less frequent in NRAS-mutated lung tumors than KRAS-mutant non-small cell lung cancer [NSCLC; NRAS: 13% (4/30), KRAS: 66% (1772/2733), P < 0.00000001]. Five of 6 NRAS-mutant cell lines were sensitive to the MEK inhibitors, selumetinib and trametinib, but not to other inhibitors tested. Conclusion: NRAS mutations define a distinct subset of lung cancers (∼1%) with potential sensitivity to MEK inhibitors. Although NRAS mutations are more common in current/former smokers, the types of mutations are not those classically associated with smoking.
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U2 - 10.1158/1078-0432.CCR-12-3173
DO - 10.1158/1078-0432.CCR-12-3173
M3 - Article
C2 - 23515407
AN - SCOPUS:84877097856
SN - 1078-0432
VL - 19
SP - 2584
EP - 2591
JO - Clinical Cancer Research
JF - Clinical Cancer Research
IS - 9
ER -
