High Throughput Interrogation of Somatic Mutations in High Grade Serous Cancer of the Ovary
Ursula A. Matulonis,Michelle S. Hirsch,Emanuele Palescandolo,Eejung Kim,Joyce F. Liu,Paul Van Hummelen,Laura E. MacConaill,Ronny Drapkin,Ronny Drapkin,William C. Hahn +9 more
TL;DR: Sequenom analysis using OncoMap on DNA extracted from FFPE ovarian cancer samples is feasible and leads to the detection of potentially druggable mutations.
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Abstract: Background: Epithelial ovarian cancer is the most lethal of all gynecologic malignancies, and high grade serous ovarian cancer (HGSC) is the most common subtype of ovarian cancer. The objective of this study was to determine the frequency and types of point somatic mutations in HGSC using a mutation detection protocol called OncoMap that employs mass spectrometric-based genotyping technology. Methodology/Principal Findings: The Center for Cancer Genome Discovery (CCGD) Program at the Dana-Farber Cancer Institute (DFCI) has adapted a high-throughput genotyping platform to determine the mutation status of a large panel of known cancer genes. The mutation detection protocol, termed OncoMap has been expanded to detect more than 1000 mutations in 112 oncogenes in formalin-fixed paraffin-embedded (FFPE) tissue samples. We performed OncoMap on a set of 203 FFPE advanced staged HGSC specimens. We isolated genomic DNA from these samples, and after a battery of quality assurance tests, ran each of these samples on the OncoMap v3 platform. 56% (113/203) tumor samples harbored candidate mutations. Sixty-five samples had single mutations (32%) while the remaining samples had $2 mutations (24%). 196 candidate mutation calls were made in 50 genes. The most common somatic oncogene mutations were found in EGFR, KRAS, PDGRFa, KIT, and PIK3CA. Other mutations found in additional genes were found at lower frequencies (,3%). Conclusions/Significance: Sequenom analysis using OncoMap on DNA extracted from FFPE ovarian cancer samples is feasible and leads to the detection of potentially druggable mutations. Screening HGSC for somatic mutations in oncogenes may lead to additional therapies for this patient population.
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Noninvasive Identification and Monitoring of Cancer Mutations by Targeted Deep Sequencing of Plasma DNA
Tim Forshew,Muhammed Murtaza,Christine Parkinson,Christine Parkinson,Davina Gale,Dana W.Y. Tsui,Fiona Kaper,Sarah-Jane Dawson,Sarah-Jane Dawson,Anna M. Piskorz,Mercedes Jimenez-Linan,David Bentley,James Hadfield,Andrew May,Carlos Caldas,James D. Brenton,Nitzan Rosenfeld +16 more
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Targeting Notch, a key pathway for ovarian cancer stem cells, sensitizes tumors to platinum therapy
Shannon M. McAuliffe,Stefanie L. Morgan,Gregory A. Wyant,Lieu T. Tran,Katherine W. Muto,Yu Sarah Chen,Kenneth T. Chin,Justin C. Partridge,Barish B. Poole,Kuang-Hung Cheng,John L. Daggett,Kristen Cullen,Emily Kantoff,Kathleen Hasselbatt,Julia Berkowitz,Michael G. Muto,Michael G. Muto,Ross S. Berkowitz,Ross S. Berkowitz,Jon C. Aster,Ursula A. Matulonis,Daniela M. Dinulescu +21 more
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High-Throughput Mutation Profiling Identifies Frequent Somatic Mutations in Advanced Gastric Adenocarcinoma
Jeeyun Lee,Paul Van Hummelen,Christina Go,Emanuele Palescandolo,Jiryeon Jang,Ha Young Park,So Young Kang,Joon Oh Park,Won Ki Kang,Laura E. MacConaill,Kyoung-Mee Kim +10 more
TL;DR: Using high throughput mutation screening platform, it was identified that PIK3CA mutations were the most frequently observed target for gastric adenocarcinoma.
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