Literature DB >> 20007840

Usefulness of peptide nucleic acid (PNA)-clamp smart amplification process version 2 (SmartAmp2) for clinical diagnosis of KRAS codon 12 mutations in lung adenocarcinoma: comparison of PNA-clamp SmartAmp2 and PCR-related methods.

Takuya Araki1, Kimihiro Shimizu, Katsunori Nakamura, Tomonori Nakamura, Yasumasa Mitani, Kyoko Obayashi, Yukiyoshi Fujita, Seiichi Kakegawa, Yohei Miyamae, Kyoichi Kaira, Takefumi Ishidao, Alexander Lezhava, Yoshihide Hayashizaki, Izumi Takeyoshi, Koujirou Yamamoto.   

Abstract

KRAS is an oncogene that can be activated by mutations. Patients with non-small cell lung cancer who have KRAS mutations do not respond to tyrosine kinase inhibitors; therefore, accurate detection of KRAS mutations is important for deciding therapeutic strategies. Although sequencing-related techniques have been frequently used, they are usually too complex, have low sensitivity, and are time-consuming for routine screening in clinical situations. We evaluated peptide nucleic acid (PNA)-clamp smart amplification process version 2 (SmartAmp2) as a detection method for KRAS codon 12 mutations in patient specimens compared with traditional sequencing and polymerase chain reaction-related methods. Among 172 lung adenocarcinoma samples, direct sequencing, enzyme-enriched sequencing, and PNA-enriched sequencing showed that 16 (9.3%), 26 (15.7%), and 28 (16.3%) tumors, respectively, contained KRAS mutations in codon 12. Using PNA-clamp SmartAmp2, we could identify 31 (18.0%) tumors that had KRAS mutations in codon 12 within 60 minutes, three of which were undetected by polymerase chain reaction-related methods. On the other hand, we examined 30 nonmalignant peripheral lung tissue specimens and found no mutations in any of the samples using PNA-clamp SmartAmp2. In this study, we confirmed that PNA-clamp SmartAmp2 has high sensitivity and accuracy and is suitable for the clinical diagnosis of KRAS codon 12 mutations.

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Year:  2009        PMID: 20007840      PMCID: PMC2797726          DOI: 10.2353/jmoldx.2010.090081

Source DB:  PubMed          Journal:  J Mol Diagn        ISSN: 1525-1578            Impact factor:   5.568


  25 in total

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2.  Mutations of p53 and K-ras genes as prognostic factors for non-small cell lung cancer.

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Journal:  J Clin Oncol       Date:  2007-08-01       Impact factor: 44.544

4.  Rapid detection of epidermal growth factor receptor mutations in lung cancer by the SMart-Amplification Process.

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Review 5.  Epidermal growth factor receptor monoclonal antibodies for the treatment of metastatic colorectal cancer.

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7.  No duplicate KRAS mutation is identified on the same allele in gastric or colorectal cancer cells with multiple KRAS mutations.

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8.  Detection of K-ras mutations in lung carcinomas: relationship to prognosis.

Authors:  P Keohavong; M A DeMichele; A C Melacrinos; R J Landreneau; R J Weyant; J M Siegfried
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9.  KRAS mutations and primary resistance of lung adenocarcinomas to gefitinib or erlotinib.

Authors:  William Pao; Theresa Y Wang; Gregory J Riely; Vincent A Miller; Qiulu Pan; Marc Ladanyi; Maureen F Zakowski; Robert T Heelan; Mark G Kris; Harold E Varmus
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10.  Clinical interest of KRAS mutation detection in blood for anti-EGFR therapies in metastatic colorectal cancer.

Authors:  F Di Fiore; F Charbonnier; B Lefebure; M Laurent; F Le Pessot; P Michel; T Frebourg
Journal:  Br J Cancer       Date:  2008-07-01       Impact factor: 7.640
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  11 in total

1.  Implications of direct amplification for measuring antimicrobial resistance using point-of-care devices.

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2.  Degraded DNA may induce discordance of KRAS status between primary colorectal cancer and corresponding liver metastases.

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3.  Risk factors associated with recurrence of surgically resected node-positive non-small cell lung cancer.

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4.  Assessment of DDR2, BRAF, EGFR and KRAS mutations as therapeutic targets in non-adenocarcinoma lung cancer patients.

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5.  Postrecurrence survival of surgically resected pulmonary adenocarcinoma patients according to EGFR and KRAS mutation status.

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Journal:  Mol Clin Oncol       Date:  2013-12-31

6.  Review of the treatment of non-small cell lung cancer with gefitinib.

Authors:  Takuya Araki; Hideaki Yashima; Kimihiro Shimizu; Tohru Aomori; Tadahiro Hashita; Kyoichi Kaira; Tomonori Nakamura; Koujirou Yamamoto
Journal:  Clin Med Insights Oncol       Date:  2012-12-06

7.  Eprobe-mediated screening system for somatic mutations in the KRAS locus.

Authors:  Jun Atsumi; Takeshi Hanami; Yasuaki Enokida; Hiroomi Ogawa; Diane Delobel; Yasumasa Mitani; Yasumasa Kimura; Takahiro Soma; Michihira Tagami; Yoshiaki Takase; Tatsuo Ichihara; Izumi Takeyoshi; Kengo Usui; Yoshihide Hayashizaki; Kimihiro Shimizu
Journal:  Oncol Rep       Date:  2015-03-30       Impact factor: 3.906

8.  KRAS Mutation Detection in Non-small Cell Lung Cancer Using a Peptide Nucleic Acid-Mediated Polymerase Chain Reaction Clamping Method and Comparative Validation with Next-Generation Sequencing.

Authors:  Boram Lee; Boin Lee; Gangmin Han; Mi Jung Kwon; Joungho Han; Yoon-La Choi
Journal:  Korean J Pathol       Date:  2014-04-28

9.  KRAS mutations in cell-free DNA from preoperative and postoperative sera as a pancreatic cancer marker: a retrospective study.

Authors:  Yutaka Nakano; Minoru Kitago; Sachiko Matsuda; Yuki Nakamura; Yusuke Fujita; Shunichi Imai; Masahiro Shinoda; Hiroshi Yagi; Yuta Abe; Taizo Hibi; Yoko Fujii-Nishimura; Ayano Takeuchi; Yutaka Endo; Osamu Itano; Yuko Kitagawa
Journal:  Br J Cancer       Date:  2018-01-23       Impact factor: 7.640

10.  Differential strand separation at critical temperature: a minimally disruptive enrichment method for low-abundance unknown DNA mutations.

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