BACKGROUND: Ovarian clear-cell and endometrioid carcinomas may arise from endometriosis, but the molecular events involved in this transformation have not been described. METHODS: We sequenced the whole transcriptomes of 18 ovarian clear-cell carcinomas and 1 ovarian clear-cell carcinoma cell line and found somatic mutations in ARID1A (the AT-rich interactive domain 1A [SWI-like] gene) in 6 of the samples. ARID1A encodes BAF250a, a key component of the SWI–SNF chromatin remodeling complex. We sequenced ARID1A in an additional 210 ovarian carcinomas and a second ovarian clear-cell carcinoma cell line and measured BAF250a expression by means of immunohistochemical analysis in an additional 455 ovarian carcinomas. RESULTS: ARID1A mutations were seen in 55 of 119 ovarian clear-cell carcinomas (46%), 10 of 33 endometrioid carcinomas (30%), and none of the 76 high-grade serous ovarian carcinomas. Seventeen carcinomas had two somatic mutations each. Loss of the BAF250a protein correlated strongly with the ovarian clear-cell carcinoma and endometrioid carcinoma subtypes and the presence of ARID1A mutations. In two patients, ARID1A mutations and loss of BAF250a expression were evident in the tumor and contiguous atypical endometriosis but not in distant endometriotic lesions. CONCLUSIONS: These data implicate ARID1A as a tumor-suppressor gene frequently disrupted in ovarian clear-cell and endometrioid carcinomas. Since ARID1A mutation and loss of BAF250a can be seen in the preneoplastic lesions, we speculate that this is an early event in the transformation of endometriosis into cancer. (Funded by the British Columbia Cancer Foundation and the Vancouver General Hospital–University of British Columbia Hospital Foundation.).
BACKGROUND: Ovarian clear-cell and endometrioid carcinomas may arise from endometriosis, but the molecular events involved in this transformation have not been described. METHODS: We sequenced the whole transcriptomes of 18 ovarian clear-cell carcinomas and 1 ovarian clear-cell carcinoma cell line and found somatic mutations in ARID1A (the AT-rich interactive domain 1A [SWI-like] gene) in 6 of the samples. ARID1A encodes BAF250a, a key component of the SWI–SNF chromatin remodeling complex. We sequenced ARID1A in an additional 210 ovarian carcinomas and a second ovarian clear-cell carcinoma cell line and measured BAF250a expression by means of immunohistochemical analysis in an additional 455 ovarian carcinomas. RESULTS:ARID1A mutations were seen in 55 of 119 ovarian clear-cell carcinomas (46%), 10 of 33 endometrioid carcinomas (30%), and none of the 76 high-grade serous ovarian carcinomas. Seventeen carcinomas had two somatic mutations each. Loss of the BAF250a protein correlated strongly with the ovarian clear-cell carcinoma and endometrioid carcinoma subtypes and the presence of ARID1A mutations. In two patients, ARID1A mutations and loss of BAF250a expression were evident in the tumor and contiguous atypical endometriosis but not in distant endometriotic lesions. CONCLUSIONS: These data implicate ARID1A as a tumor-suppressor gene frequently disrupted in ovarian clear-cell and endometrioid carcinomas. Since ARID1A mutation and loss of BAF250a can be seen in the preneoplastic lesions, we speculate that this is an early event in the transformation of endometriosis into cancer. (Funded by the British ColumbiaCancer Foundation and the Vancouver General Hospital–University of British Columbia Hospital Foundation.).
Authors: Daniela M Dinulescu; Tan A Ince; Bradley J Quade; Sarah A Shafer; Denise Crowley; Tyler Jacks Journal: Nat Med Date: 2004-12-26 Impact factor: 53.440
Authors: B A Goff; R Sainz de la Cuesta; H G Muntz; D Fleischhacker; M Ek; L W Rice; N Nikrui; H K Tamimi; J M Cain; B E Greer; A F Fuller Journal: Gynecol Oncol Date: 1996-03 Impact factor: 5.482
Authors: Y Suehiro; M Sakamoto; K Umayahara; H Iwabuchi; H Sakamoto; N Tanaka; N Takeshima; K Yamauchi; K Hasumi; T Akiya; H Sakunaga; T Muroya; F Numa; H Kato; Y Tenjin; T Sugishita Journal: Oncology Date: 2000-06 Impact factor: 2.935
Authors: Joshua Z Press; Alessandro De Luca; Niki Boyd; Sean Young; Armelle Troussard; Yolanda Ridge; Pardeep Kaurah; Steve E Kalloger; Katherine A Blood; Margaret Smith; Paul T Spellman; Yuker Wang; Dianne M Miller; Doug Horsman; Malek Faham; C Blake Gilks; Joe Gray; David G Huntsman Journal: BMC Cancer Date: 2008-01-22 Impact factor: 4.430
Authors: J Dent; G D Hall; N Wilkinson; T J Perren; I Richmond; A F Markham; H Murphy; S M Bell Journal: Br J Cancer Date: 2003-05-19 Impact factor: 7.640
Authors: Carlos Parra-Herran; Jordan Lerner-Ellis; Bin Xu; Sam Khalouei; Dina Bassiouny; Matthew Cesari; Nadia Ismiil; Sharon Nofech-Mozes Journal: Mod Pathol Date: 2017-08-04 Impact factor: 7.842
Authors: Gregory R Hoffman; Rami Rahal; Frank Buxton; Kay Xiang; Gregory McAllister; Elizabeth Frias; Linda Bagdasarian; Janina Huber; Alicia Lindeman; Dongshu Chen; Rodrigo Romero; Nadire Ramadan; Tanushree Phadke; Kristy Haas; Mariela Jaskelioff; Boris G Wilson; Matthew J Meyer; Veronica Saenz-Vash; Huili Zhai; Vic E Myer; Jeffery A Porter; Nicholas Keen; Margaret E McLaughlin; Craig Mickanin; Charles W M Roberts; Frank Stegmeier; Zainab Jagani Journal: Proc Natl Acad Sci U S A Date: 2014-02-11 Impact factor: 11.205