Norihiro Yamaguchi scite author profile

Epidermal growth factor receptor (EGFR) gene mutations (G719X, exon 19 deletions/insertions, L858R and L861Q) predict favorable responses to EGFR tyrosine kinase inhibitors (TKIs) in advanced non-small-cell lung cancer (NSCLC). However, EGFR exon 20 insertion mutations (∼10% of all EGFR mutations) are generally associated with insensitivity to available TKIs (gefitinib, erlotinib and afatinib). The basis of this primary resistance is poorly understood. We study a broad subset of exon 20 insertion mutations, comparing in vitro TKI sensitivity with responses to gefitinib and erlotinib in NSCLC patients; and find that most are resistant to EGFR TKIs. The crystal structure of a representative TKI-insensitive mutant (D770_N771insNPG) reveals an unaltered ATP-binding pocket and the inserted residues form a wedge at the end of the C-helix that promotes the active kinase conformation. Unlike EGFR-L858R, D770_N771insNPG activates EGFR without increasing its affinity for EGFR TKIs. Unexpectedly, we find that EGFR-A763_Y764insFQEA is highly sensitive to EGFR TKIs in vitro; and patients whose NSCLCs harbor this mutation respond to erlotinib. Analysis of the A763_Y764insFQEA mutant indicates that the inserted residues shift the register of the C-helix in the N-terminal direction, altering the structure in the region that is also affected by the TKI-sensitive EGFR-L858R. Our studies reveal intricate differences between EGFR mutations, their biology and their response to EGFR TKIs.

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Brain metastases in patients with EGFR -mutated or ALK -rearranged non-small-cell lung cancers

Rangachari¹,

Yamaguchi²,

VanderLaan³

et al. 2015

Lung Cancer

397

292

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Introduction Brain metastases (BM) are common in non-small-cell lung cancer (NSCLC). However, the baseline incidence and evolution of BM over time in oncogene-driven NSCLCs are seldom reported. In this study, we evaluated the frequency of BM in patients with epidermal growth factor receptor (EGFR)-mutated or anaplastic lymphoma kinase (ALK)-rearranged NSCLC. Methods The presence of BM, clinicopathologic data, and tumor genotype were retrospectively compiled and analyzed from a cohort of 381 patients. Results We identified 86 EGFR-mutated (90.7% with metastatic disease; 85.9% received an EGFR inhibitor) and 23 ALK-rearranged (91.3% with metastatic disease; 85.7% received an ALK inhibitor) NSCLCs. BM were present in 24.4% of EGFR-mutated and 23.8% of ALK-rearranged NSCLCs at the time of diagnosis of advanced disease. This study did not demonstrate a difference in the cumulative incidence of BM over time between the two cohorts (EGFR/ALK cohort competing risk regression [CRR] coefficient of 0.78 [95% CI 0.44–1.39], p=0.41). In still living patients with advanced EGFR-mutated NSCLC, 34.2% had BM at 1 year, 38.4% at 2 years, 46.7% at 3 years, 48.7% at 4 years, and 52.9% at 5 years. In still living patients with advanced ALK-rearranged NSCLC, 23.8% had BM at 1 year, 45.5% at 2 years, and 58.4% at 3 years. Conclusions BM are frequent in advanced EGFR-mutated or ALK-rearranged NSCLCs, with an estimated >45% of patients with CNS involvement by three years of survival with the use of targeted therapies. These data point toward the CNS as an important unmet clinical need in the evolving schema for personalized care in NSCLC.

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The Cytoplasmic DNA Sensor cGAS Promotes Mitotic Cell Death

Zierhut

Yamaguchi

Paredes

et al. 2019

Cell

288

271

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Compound EGFR Mutations and Response to EGFR Tyrosine Kinase Inhibitors

Kobayashi

Canepa

Bailey

et al. 2013

Journal of Thoracic Oncology

177

142

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INTRODUCTION Non-small-cell lung cancers (NSCLCs) containing epidermal growth factor receptor (EGFR) mutations are exquisitely sensitive to EGFR tyrosine kinase inhibitors (TKIs). This is the case of the most common EGFR mutations affecting exon 18 (G719X), 19 (inframe deletions) and 21 (L858R and L861Q). However, the frequency of compound (i.e., double or complex) EGFR mutations - where an EGFR TKI sensitizing or other mutation is identified together with a mutation of unknown clinical significance – and their pattern of response/resistance to EGFR TKIs are less well described. METHODS We analyzed the EGFR mutation pattern of 79 cases of NSCLC harboring EGFR mutations, and compiled the genotype-response data for patients with NSCLCs with compound EGFR mutations treated with EGFR TKIs. RESULTS Out of the 79 EGFR mutated tumors identified, 11 (14%) had compound mutations. Most involved the EGFR TKI-sensitizing G719X (n=3, plus S768I or E709A), L858R (n=4, plus L747V, R776H, T790M or A871G), L861Q (n=1, plus E709V) and delL747_T751 (n=1, plus R776H). 8 patients received an EGFR TKI: 3 cases with G719X plus another mutation had partial responses (PR) to erlotinib; out of 3 cases with L858R plus another mutation, 2 displayed PRs and 1 (with EGFR-L858R+A871G) progressive disease to erlotinib; 1 NSCLC with EGFR-L861Q+E709A and 1 with delL747_T51+R776S had PRs to EGFR TKIs. CONCLUSIONS Compound EGFR mutations comprised 14% of all mutations identified during routine sequencing of exons 18–21 of EGFR in our cohort. Most patients with an EGFR TKI sensitizing mutation (G719X, exon 19 deletion, L858R and L861Q) in addition to an atypical mutation responded to EGFR TKIs. Reporting of the genotype-response pattern of NSCLCs with EGFR compound and other rare mutations, and the addition of this information to searchable databases will be helpful to select the appropriate therapy for EGFR mutated NSCLC.

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Success and failure rates of tumor genotyping techniques in routine pathological samples with non-small-cell lung cancer

et al. 2014

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Introduction Identification of some somatic molecular alterations in non-small-cell lung cancer (NSCLC) has become evidence-based practice. The success and failure rate of using commercially-available tumor genotyping techniques in routine day-to-day NSCLC pathology samples is not well described. We sought to evaluate the success and failure rate of EGFR mutation, KRAS mutation, and ALK FISH in a cohort of lung cancers subjected to routine clinical tumor genotype. Methods Clinicopathologic data, tumor genotype success and failure rates were retrospectively compiled and analyzed from 381 patient-tumor samples. Results From these 381 patients with lung cancer, the mean age was 65 years, 61.2% were women, 75.9% were white, 27.8% were never smokers, 73.8% had advanced NSCLC and 86.1% had adenocarcinoma histology. The tumor tissue was obtained from surgical specimens in 48.8%, core needle biopsies in 17.9%, and as cell blocks from aspirates or fluid in 33.3% of cases. Anatomic sites for tissue collection included lung (49.3%), lymph nodes (22.3%), pleura (11.8%), bone (6.0%), brain (6.0%), among others. The overall success rate for EGFR mutation analysis was 94.2%, for KRAS mutation 91.6% and for ALK FISH 91.6%. The highest failure rates were observed when the tissue was obtained from image-guided percutaneous transthoracic core-needle biopsies (31.8%, 27.3%, and 35.3% for EGFR, KRAS, and ALK tests, respectively) and bone specimens (23.1%, 15.4%, and 23.1%, respectively). In specimens obtained from bone, the failure rates were significantly higher for biopsies than resection specimens (40% vs 0%, p=0.024 for EGFR) and for decalcified compared to non-decalcified samples (60% vs 5.5%, p=0.021 for EGFR). Conclusions Tumor genotype techniques are feasible in most samples, outside small image-guided percutaneous transthoracic core-needle biopsies and bone samples from core biopsies with decalcification, and therefore expansion of routine tumor genotype into the care of patients with NSCLC may not require special tissue acquisition or manipulation.

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Functional Genomics In Vivo Reveal Metabolic Dependencies of Pancreatic Cancer Cells

et al. 2021

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β-Catenin Contributes to Lung Tumor Development Induced by EGFR Mutations

Nakayama

Sng

Carretero

et al. 2014

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The discovery of somatic mutations in epidermal growth factor receptor (EGFR) and development of EGFR tyrosine kinase inhibitors (TKIs) have revolutionized treatment for lung cancer. However, resistance to TKIs emerges in almost all patients and currently no effective treatment is available. Here we show that β-catenin is essential for development of EGFR mutated lung cancers. β-catenin was upregulated and activated in EGFR mutated cells. Mutant EGFR preferentially bound to and tyrosine-phosphorylated β-catenin, leading to increase in β-catenin-mediated transactivation, particularly in cells harboring the gefitinib/erlotinib-resistant gatekeeper EGFR-T790M mutation. Pharmacological inhibition of β-catenin suppressed EGFR-L858R-T790M mutated lung tumor growth and genetic deletion of the β-catenin gene dramatically reduced lung tumor formation in EGFR-L858R-T790M transgenic mice. These data suggest that β-catenin plays an essential role in lung tumorigenesis and that targeting the β-catenin pathway may provide novel strategies to prevent lung cancer development or overcome resistance to EGFR TKIs.

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PCK1 and DHODH drive colorectal cancer liver metastatic colonization and hypoxic growth by promoting nucleotide synthesis

Yamaguchi

Weinberg

Nguyen

et al. 2019

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Colorectal cancer (CRC) is a major cause of human death. Mortality is primarily due to metastatic organ colonization, with the liver being the main organ affected. We modeled metastatic CRC (mCRC) liver colonization using patient-derived primary and metastatic tumor xenografts (PDX). Such PDX modeling predicted patient survival outcomes. In vivo selection of multiple PDXs for enhanced metastatic colonization capacity upregulated the gluconeogenic enzyme PCK1, which enhanced liver metastatic growth by driving pyrimidine nucleotide biosynthesis under hypoxia. Consistently, highly metastatic tumors upregulated multiple pyrimidine biosynthesis intermediary metabolites. Therapeutic inhibition of the pyrimidine biosynthetic enzyme DHODH with leflunomide substantially impaired CRC liver metastatic colonization and hypoxic growth. Our findings provide a potential mechanistic basis for the epidemiologic association of anti-gluconeogenic drugs with improved CRC metastasis outcomes, reveal the exploitation of a gluconeogenesis enzyme for pyrimidine biosynthesis under hypoxia, and implicate DHODH and PCK1 as metabolic therapeutic targets in CRC metastatic progression.

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