Functional analysis of receptor tyrosine kinase mutations in lung cancer identifies oncogenic extracellular domain mutations of <i>ERBB2</i>

Heidi Greulich; Bethany Kaplan; Philipp Mertins; Tzu-Hsiu Chen; Kumiko Tanaka; Cai‐Hong Yun; Xiaohong Zhang; Se‐Hoon Lee; Jeonghee Cho; Lauren Ambrogio; Rachel G. Liao; Marcin Imieliński; Shantanu Banerji; Alice H. Berger; Michael S. Lawrence; Jinghui Zhang; Nam Pho; Sarah R. Walker; Wendy Winckler; Gad Getz; David A. Frank; William C. Hahn; Michael J. Eck; D.R. Mani; Jacob D. Jaffe; Steven A. Carr; Kwok‐Kin Wong; Matthew Meyerson

doi:10.1073/pnas.1203201109

Functional analysis of receptor tyrosine kinase mutations in lung cancer identifies oncogenic extracellular domain mutations of <i>ERBB2</i>

Heidi Greulich(Broad Institute), Bethany Kaplan(Broad Institute), Philipp Mertins(Broad Institute), Tzu-Hsiu Chen(Broad Institute), Kumiko Tanaka(Broad Institute), Cai‐Hong Yun(Peking University), Xiaohong Zhang, Se‐Hoon Lee, Jeonghee Cho, Lauren Ambrogio(Broad Institute), Rachel G. Liao(Broad Institute), Marcin Imieliński(Broad Institute), Shantanu Banerji(Broad Institute), Alice H. Berger(Broad Institute), Michael S. Lawrence(Broad Institute), Jinghui Zhang(St. Jude Children's Research Hospital), Nam Pho(Broad Institute), Sarah R. Walker, Wendy Winckler(Broad Institute), Gad Getz(Broad Institute), David A. Frank, William C. Hahn(Broad Institute), Michael J. Eck(Dana-Farber Cancer Institute), D.R. Mani(Broad Institute), Jacob D. Jaffe(Broad Institute), Steven A. Carr(Broad Institute), Kwok‐Kin Wong, Matthew Meyerson(Broad Institute)

Proceedings of the National Academy of Sciences

August 20, 2012

10.1073/pnas.1203201109

Cited by 266Open Access

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Abstract

We assessed somatic alleles of six receptor tyrosine kinase genes mutated in lung adenocarcinoma for oncogenic activity. Five of these genes failed to score in transformation assays; however, novel recurring extracellular domain mutations of the receptor tyrosine kinase gene ERBB2 were potently oncogenic. These ERBB2 extracellular domain mutants were activated by two distinct mechanisms, characterized by elevated C-terminal tail phosphorylation or by covalent dimerization mediated by intermolecular disulfide bond formation. These distinct mechanisms of receptor activation converged upon tyrosine phosphorylation of cellular proteins, impacting cell motility. Survival of Ba/F3 cells transformed to IL-3 independence by the ERBB2 extracellular domain mutants was abrogated by treatment with small-molecule inhibitors of ERBB2, raising the possibility that patients harboring such mutations could benefit from ERBB2-directed therapy.

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