Literature DB >> 28776576

GNAS mutations in primary mucinous and non-mucinous lung adenocarcinomas.

Lauren L Ritterhouse1, Marina Vivero1, Mari Mino-Kenudson2, Lynette M Sholl1, A John Iafrate2, Valentina Nardi2, Fei Dong1.   

Abstract

GNAS mutations have been described in mucinous and non-mucinous epithelial neoplasms of the appendix, pancreas, and colon, with hotspot GNAS mutations found in up to two-thirds of pancreatic intraductal papillary mucinous neoplasms. Additionally, many GNAS-mutated tumors have concurrent mutations in the Ras/Raf pathway. The clinicopathologic features of GNAS-mutated lung carcinomas, however, have not yet been characterized. Primary lung carcinomas from Brigham and Women's Hospital (n=1282) or Massachusetts General Hospital (n=1070) were genotyped on a targeted massively parallel sequencing panel of oncogenes and tumor suppressor genes including GNAS. Clinical and pathological features were reviewed, and TTF-1 immunohistochemistry was performed when material was available. Nineteen lung adenocarcinomas with hotspot GNAS mutations were identified (19/2352, 0.8%) including 14 at codon 201 and 5 at codon 227. GNAS-mutated lung adenocarcinomas occurred predominantly in female patients (16/19, 84%). Ten (10) were classified as invasive mucinous adenocarcinomas (IMA), and nine (9) were non-mucinous adenocarcinomas. All IMAs had GNAS codon 201 mutations and concurrent Ras/Raf pathway mutations (9 KRAS, 1 BRAF). No tumors with GNAS codon 227 mutations had mucinous histological features. 86% of GNAS-mutated non-mucinous adenocarcinomas (6/7) were positive for TTF-1 immunohistochemistry, while only 25% of GNAS-mutated IMAs (1/4) were positive for TTF-1. Patients with GNAS-mutated non-mucinous adenocarcinomas were more likely to have a history of smoking (9/9, 100%) compared to patients with GNAS-mutated IMAs (2/10, 20%) (P<0.001). Hotspot GNAS mutations can occur in primary lung adenocarcinomas. When associated with concurrent mutations in the Ras/Raf pathway, these neoplasms often present as IMAs. GNAS mutations are not specific to neoplasms of the gastrointestinal tract, and clinicopathologic correlation is necessary in GNAS-mutated adenocarcinomas in the lung to determine the primary site of origin.

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Year:  2017        PMID: 28776576     DOI: 10.1038/modpathol.2017.88

Source DB:  PubMed          Journal:  Mod Pathol        ISSN: 0893-3952            Impact factor:   7.842


  37 in total

1.  Associations between mutations and histologic patterns of mucin in lung adenocarcinoma: invasive mucinous pattern and extracellular mucin are associated with KRAS mutation.

Authors:  Kyuichi Kadota; Yi-Chen Yeh; Sandra P D'Angelo; Andre L Moreira; Deborah Kuk; Camelia S Sima; Gregory J Riely; Maria E Arcila; Mark G Kris; Valerie W Rusch; Prasad S Adusumilli; William D Travis
Journal:  Am J Surg Pathol       Date:  2014-08       Impact factor: 6.394

2.  Distinct clinicopathologic characteristics of lung mucinous adenocarcinoma with KRAS mutation.

Authors:  Hideomi Ichinokawa; Genichiro Ishii; Kanji Nagai; Akikazu Kawase; Junji Yoshida; Mitsuyo Nishimura; Tomoyuki Hishida; Naomi Ogasawara; Katsuya Tsuchihara; Atsushi Ochiai
Journal:  Hum Pathol       Date:  2013-10-10       Impact factor: 3.466

3.  Mucinous and nonmucinous bronchioloalveolar adenocarcinomas have distinct staining patterns with thyroid transcription factor and cytokeratin 20 antibodies.

Authors:  N S Goldstein; M Thomas
Journal:  Am J Clin Pathol       Date:  2001-09       Impact factor: 2.493

4.  Prognosis in Resected Invasive Mucinous Adenocarcinomas of the Lung: Related Factors and Comparison with Resected Nonmucinous Adenocarcinomas.

Authors:  Ho Yun Lee; Min Jae Cha; Kyung Soo Lee; Hee Young Lee; O Jung Kwon; Joon Young Choi; Hong Kwan Kim; Yong Soo Choi; Jhingook Kim; Young Mog Shim
Journal:  J Thorac Oncol       Date:  2016-03-22       Impact factor: 15.609

5.  Mutational analysis of the HER2 gene in lung tumors from Caucasian patients: mutations are mainly present in adenocarcinomas with bronchioloalveolar features.

Authors:  Fiamma Buttitta; Fabio Barassi; Giuseppina Fresu; Lara Felicioni; Antonio Chella; Diego Paolizzi; Giuseppe Lattanzio; Simona Salvatore; Pier P Camplese; Sandra Rosini; Teodorico Iarussi; Felice Mucilli; Rocco Sacco; Andrea Mezzetti; Antonio Marchetti
Journal:  Int J Cancer       Date:  2006-12-01       Impact factor: 7.396

6.  Recurrent GNAS mutations define an unexpected pathway for pancreatic cyst development.

Authors:  Jian Wu; Hanno Matthaei; Anirban Maitra; Marco Dal Molin; Laura D Wood; James R Eshleman; Michael Goggins; Marcia I Canto; Richard D Schulick; Barish H Edil; Christopher L Wolfgang; Alison P Klein; Luis A Diaz; Peter J Allen; C Max Schmidt; Kenneth W Kinzler; Nickolas Papadopoulos; Ralph H Hruban; Bert Vogelstein
Journal:  Sci Transl Med       Date:  2011-07-20       Impact factor: 17.956

7.  A combination of molecular markers and clinical features improve the classification of pancreatic cysts.

Authors:  Simeon Springer; Yuxuan Wang; Marco Dal Molin; David L Masica; Yuchen Jiao; Isaac Kinde; Amanda Blackford; Siva P Raman; Christopher L Wolfgang; Tyler Tomita; Noushin Niknafs; Christopher Douville; Janine Ptak; Lisa Dobbyn; Peter J Allen; David S Klimstra; Mark A Schattner; C Max Schmidt; Michele Yip-Schneider; Oscar W Cummings; Randall E Brand; Herbert J Zeh; Aatur D Singhi; Aldo Scarpa; Roberto Salvia; Giuseppe Malleo; Giuseppe Zamboni; Massimo Falconi; Jin-Young Jang; Sun-Whe Kim; Wooil Kwon; Seung-Mo Hong; Ki-Byung Song; Song Cheol Kim; Niall Swan; Jean Murphy; Justin Geoghegan; William Brugge; Carlos Fernandez-Del Castillo; Mari Mino-Kenudson; Richard Schulick; Barish H Edil; Volkan Adsay; Jorge Paulino; Jeanin van Hooft; Shinichi Yachida; Satoshi Nara; Nobuyoshi Hiraoka; Kenji Yamao; Susuma Hijioka; Schalk van der Merwe; Michael Goggins; Marcia Irene Canto; Nita Ahuja; Kenzo Hirose; Martin Makary; Matthew J Weiss; John Cameron; Meredith Pittman; James R Eshleman; Luis A Diaz; Nickolas Papadopoulos; Kenneth W Kinzler; Rachel Karchin; Ralph H Hruban; Bert Vogelstein; Anne Marie Lennon
Journal:  Gastroenterology       Date:  2015-08-04       Impact factor: 22.682

8.  Napsin A expression in primary mucin-producing adenocarcinomas of the lung: an immunohistochemical study.

Authors:  Jeffrey Wu; Peiguo G Chu; Zhong Jiang; Sean K Lau
Journal:  Am J Clin Pathol       Date:  2013-02       Impact factor: 2.493

9.  GNAS mutations as prognostic biomarker in patients with relapsed peritoneal pseudomyxoma receiving metronomic capecitabine and bevacizumab: a clinical and translational study.

Authors:  Filippo Pietrantonio; Rosa Berenato; Claudia Maggi; Marta Caporale; Massimo Milione; Federica Perrone; Elena Tamborini; Dario Baratti; Shigeki Kusamura; Luigi Mariani; Monica Niger; Alessia Mennitto; Annunziata Gloghini; Ilaria Bossi; Giulio Settanni; Adele Busico; Pietro Francesco Bagnoli; Maria Di Bartolomeo; Marcello Deraco; Filippo de Braud
Journal:  J Transl Med       Date:  2016-05-06       Impact factor: 5.531

10.  GNAS mutations identify a set of right-sided, RAS mutant, villous colon cancers.

Authors:  Ryan E Fecteau; James Lutterbaugh; Sanford D Markowitz; Joseph Willis; Kishore Guda
Journal:  PLoS One       Date:  2014-01-30       Impact factor: 3.240
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  12 in total

1.  Mutant GNAS limits tumor aggressiveness in established pancreatic cancer via antagonizing the KRAS-pathway.

Authors:  Hidemasa Kawabata; Yusuke Ono; Nobue Tamamura; Kyohei Oyama; Jun Ueda; Hiroki Sato; Kenji Takahashi; Kenzui Taniue; Tetsuhiro Okada; Syugo Fujibayashi; Akihiro Hayashi; Takuma Goto; Katsuro Enomoto; Hiroaki Konishi; Mikihiro Fujiya; Keita Miyakawa; Mishie Tanino; Yuji Nishikawa; Daisuke Koga; Tsuyoshi Watanabe; Chiho Maeda; Hidenori Karasaki; Andrew S Liss; Yusuke Mizukami; Toshikatsu Okumura
Journal:  J Gastroenterol       Date:  2022-01-11       Impact factor: 7.527

2.  Oncogene addiction to GNAS in GNASR201 mutant tumors.

Authors:  Aditya More; Ichiaki Ito; Valsala Haridas; Saikat Chowdhury; Yue Gu; Princess Dickson; Natalie Fowlkes; John Paul Shen
Journal:  Oncogene       Date:  2022-07-25       Impact factor: 8.756

3.  Diffuse expression of MUC6 defines a distinct clinicopathological subset of pulmonary invasive mucinous adenocarcinoma.

Authors:  Satsuki Kishikawa; Takuo Hayashi; Tsuyoshi Saito; Kazuya Takamochi; Shinji Kohsaka; Kei Sano; Noriko Sasahara; Keita Sasa; Taisei Kurihara; Kieko Hara; Yoshiyuki Suehara; Fumiyuki Takahashi; Kenji Suzuki; Takashi Yao
Journal:  Mod Pathol       Date:  2020-10-06       Impact factor: 7.842

Review 4.  [The activating GNAS mutation : A survey of fibrous dysplasia, its associated syndromes, and other skeletal and extraskeletal lesions].

Authors:  H Ostertag; S Glombitza
Journal:  Pathologe       Date:  2018-03       Impact factor: 1.011

5.  GNAS, GNAQ, and GNA11 alterations in patients with diverse cancers.

Authors:  Austin J Parish; Vi Nguyen; Aaron M Goodman; Karthikeyan Murugesan; Garrett M Frampton; Razelle Kurzrock
Journal:  Cancer       Date:  2018-09-11       Impact factor: 6.860

Review 6.  How should molecular findings be integrated in the classification for lung cancer?

Authors:  Yin P Hung; Lucian R Chirieac
Journal:  Transl Lung Cancer Res       Date:  2020-10

7.  Comprehensive analysis of copy number variance and sensitivity to common targeted therapy in clear cell renal cell carcinoma: In silico analysis with in vitro validation.

Authors:  Yuqing Li; Yanyun Shen; Zhidong Zhu; Hui Wen; Chenchen Feng
Journal:  Cancer Med       Date:  2020-07-06       Impact factor: 4.452

8.  Molecular subtypes based on DNA methylation predict prognosis in lung squamous cell carcinoma.

Authors:  Xiu-Shen Li; Ke-Chao Nie; Zhi-Hua Zheng; Rui-Sheng Zhou; Yu-Sheng Huang; Zeng-Jie Ye; Fan He; Ying Tang
Journal:  BMC Cancer       Date:  2021-01-23       Impact factor: 4.430

9.  Molecular landscape of osimertinib resistance in patients and patient-derived preclinical models.

Authors:  Sun Min Lim; San-Duk Yang; Sangbin Lim; Seong Gu Heo; Stetson Daniel; Aleksandra Markovets; Rafati Minoo; Kyoung-Ho Pyo; Mi Ran Yun; Min Hee Hong; Hye Ryun Kim; Byoung Chul Cho
Journal:  Ther Adv Med Oncol       Date:  2022-02-26       Impact factor: 8.168

10.  Autoantibody to GNAS in Early Detection of Hepatocellular Carcinoma: A Large-Scale Sample Study Combined with Verification in Serial Sera from HCC Patients.

Authors:  Xiao Wang; Keyan Wang; Cuipeng Qiu; Bofei Wang; Xiaojun Zhang; Yangcheng Ma; Liping Dai; Jian-Ying Zhang
Journal:  Biomedicines       Date:  2022-01-04
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