<i>EGFR</i> Kinase Domain Duplication (<i>EGFR</i>-KDD) Is a Novel Oncogenic Driver in Lung Cancer That Is Clinically Responsive to Afatinib

Gallant, Jean‐Nicolas; Sheehan, Jonathan H.; Shaver, Timothy M.; Bailey, Mark; Lipson, Doron; Chandramohan, Raghu; Brewer, Monica Red; York, Sally J.; Kris, Mark G.; Pietenpol, Jennifer A.; Ladanyi, Marc; Miller, Vincent A.; Ali, Siraj M.; Meiler, Jens; Lovly, Christine M.

doi:10.1158/2159-8290.cd-15-0654

Cited by 107 publications

(138 citation statements)

References 28 publications

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“…This type of EGFR-KDD had only been previously reported in rare cases of glioma (36) and was additionally found to occur in sarcomas, peritoneal carcinomas and Wilms' tumors (34). In preclinical and computational models, the resulting EGFR-KDD protein is transforming, may generate EGFR intramolecular asymmetric activated dimers, and is hypersensitive to 1 st , 2 nd and 3 rd generation EGFR TKIs (34). The same report also describes a case of advanced chemotherapyprogressive EGFR-KDD mutated lung adenocarcinoma with a 7-month partial response to afatinib (doses not provided) and subsequent progression due to amplification of the EGFR-KDD allele (34).…”

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confidence: 88%

“…As these exons encompass the tyrosine kinase domain, this duplication generates an in-frame kinase domain duplication at the protein level. This type of EGFR-KDD had only been previously reported in rare cases of glioma (36) and was additionally found to occur in sarcomas, peritoneal carcinomas and Wilms' tumors (34). In preclinical and computational models, the resulting EGFR-KDD protein is transforming, may generate EGFR intramolecular asymmetric activated dimers, and is hypersensitive to 1 st , 2 nd and 3 rd generation EGFR TKIs (34).…”

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confidence: 96%

“…Eloquent structural and biochemical experiments have irrefutably defined that the addition of EGFR-T790M to a sensitizing mutant alters the kinetics of inhibitor binding of gefitinib, erlotinib and afatinib (29,30); leading to resistance to achievable clinical doses of these EGFR TKIs. However, 3 rd generation EGFR TKIs that were selected on the basis of their covalent binding to EGFR-C797, plus their mutation over WT EGFR sensitivity, can inhibit EGFR-T790M bearing cancers (6,31 and EGFR rearrangements (34,35). It seems the frequency of these changes does not exceed individually 0.5% of all EGFR mutation events ( Table 1).…”

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confidence: 99%

“…The EGFR-KDD alteration consists of an intragenic alteration in EGFR, resulting in the tandem duplication of exons 18 to 25 (34). As these exons encompass the tyrosine kinase domain, this duplication generates an in-frame kinase domain duplication at the protein level.…”

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confidence: 99%

“…In preclinical and computational models, the resulting EGFR-KDD protein is transforming, may generate EGFR intramolecular asymmetric activated dimers, and is hypersensitive to 1 st , 2 nd and 3 rd generation EGFR TKIs (34). The same report also describes a case of advanced chemotherapyprogressive EGFR-KDD mutated lung adenocarcinoma with a 7-month partial response to afatinib (doses not provided) and subsequent progression due to amplification of the EGFR-KDD allele (34). Another case report of a prolonged multi-year response to gefitinib and then erlotinib has been described for advanced EGFR-KDD mutated lung adenocarcinoma (37).…”

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confidence: 99%

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Kinase inhibitor-responsive genotypes in EGFR mutated lung adenocarcinomas: moving past common point mutations or indels into uncommon kinase domain duplications and rearrangements

Costa¹

2016

Transl. Lung Cancer Res.

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Epidermal growth factor receptor (EGFR) mutations were first identified as driver oncogenes in non-small-cell lung cancers (NSCLCs) in 2004 by three separate independent groups (1-3), and originally thought to consistent of only inframe deletions, insertions (i.e., indels) or point mutations within exons 18 to 21 of the kinase domain of EGFR (4). The most abundant EGFR mutations are deletions/indels (around amino-acid residues 747 to 752) of exon 19 (these account for ~45% of all EGFR mutations, with the most common delE746_A750) and the exon 21 point mutation L858R mutation (~35% of all EGFR mutations). Inhibition of mutant EGFR in preclinical models through tyrosine kinase inhibitors (TKIs) unsettles the intracellular signaling cascade, generating cell cycle arrest and apoptosis (5). In the clinic, the 1 st generation EGFR TKIs gefitinib and erlotinib, both reversible ATP mimetics with a favorable therapeutic window in relation to the wild-type (WT) EGFR (4,6), induce overall response rate (ORR), EditorialKinase inhibitor-responsive genotypes in EGFR mutated lung adenocarcinomas: moving past common point mutations or indels into uncommon kinase domain duplications and rearrangements that comprehensive molecular profiling may be necessary to maximize the identification of all cases that can benefit from precision oncology.

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confidence: 88%

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confidence: 96%

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confidence: 99%

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confidence: 99%

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confidence: 99%

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Kinase inhibitor-responsive genotypes in EGFR mutated lung adenocarcinomas: moving past common point mutations or indels into uncommon kinase domain duplications and rearrangements

Costa¹

2016

Transl. Lung Cancer Res.

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Real‐world efficacy and potential mechanism of resistance of icotinib in Asian advanced non‐small cell lung cancer with EGFR uncommon mutations: A multi‐center study

Lei

Wang

Zhu³

et al. 2019

Cancer Medicine

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The response to icotinib in advanced non‐small cell lung cancers (NSCLC) with EGFR uncommon mutation (EGFRum) is unclear. Here we reported the efficacy and potential resistance mechanism of icotinib in Chinese EGFRum NSCLC patients. Between July 2013 and November 2016, 3117 NSCLC patients were screened for EGFRum in a multi‐center study in China. Circulating tumor DNA (ctDNA) was detected and analyzed using next‐generation sequencing (NGS) after progression from icotinib. The efficacy, safety and the potential resistance mechanism of icotinib were explored. After a median follow‐up of 6.2 months, 69 patients (70.41%) developed disease progression, the objective rate (ORR) and disease control rate (DCR) were 13.27% and 29.59% respectively, and the median progression‐free survival (PFS) was 5.5 months (95% CI: 1.2‐13.0 months). Both complex‐pattern with EGFR classical mutations (EGFRcm) and single‐pattern have better PFS than complex‐pattern without EGFRcm (median PFS was 7.2 (95% CI: 4.65‐9.75), 5.2 (95% CI: 3.24‐7.16) and 3.2 (95% CI: 2.97‐3.44) months, respectively, P < .05); patients harboring S768I mutation had the worst PFS than others (2.0 months, P < .05). Diarrhea was the most frequent side effect (42.9%). Forty‐eight (69.6%) patients developed drug resistance after 3.0 months and 81.2% of them acquired T790M mutation. Better response was observed in complex‐pattern with the EGFRcm group. S768I mutation carriers may not benefit from icotinib. Acquired T790M mutation was common in icotinib‐resistant EGFRum NSCLC patients.

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Clinical and molecular characteristics of kinase domain duplications across diverse cancer types in the Chinese population

Lai

Yu²,

Ou³

et al. 2022

Cancer Medicine

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Background: Kinase domain duplications (KDDs) have recently been recognized as oncogenic mutations and possible association with drug resistance in cancers.Method: Here, targeted sequencing was performed with the tumor tissue and/or plasma from 65 cancer patients with KDDs.Result: Intact KDDs were identified in approximately 0.1% of the total population across multiple cancer types. EGFR KDD was first identified in colorectal cancer and breast cancer, whereas FGFR2 KDD was first identified in gastric cancer. Tumors with EGFR KDD displayed lower concurrent TP53 gene alterations (p = 0.03) and slightly higher chromosome instability (p = 0.27) compared to tumors with non-EGFR-KDDs. Immune pathway analysis further revealed the enrichment of the cytokine receptors pathway (93%) in the KDD carriers.Hyperprogression-related gene mutations were identified in four cases. Conclusion:Collectively, our data revealed the genomic features of KDD alterations in a multi-cancer cohort, providing more information for the potential treatment application in the KDD carriers.

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EGFR Kinase Domain Duplication (EGFR-KDD) Is a Novel Oncogenic Driver in Lung Cancer That Is Clinically Responsive to Afatinib

Cited by 107 publications

References 28 publications

Kinase inhibitor-responsive genotypes in EGFR mutated lung adenocarcinomas: moving past common point mutations or indels into uncommon kinase domain duplications and rearrangements

Kinase inhibitor-responsive genotypes in EGFR mutated lung adenocarcinomas: moving past common point mutations or indels into uncommon kinase domain duplications and rearrangements

Real‐world efficacy and potential mechanism of resistance of icotinib in Asian advanced non‐small cell lung cancer with EGFR uncommon mutations: A multi‐center study

Clinical and molecular characteristics of kinase domain duplications across diverse cancer types in the Chinese population

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