TY - JOUR
T1 - Profiling of somatic mutations in acute myeloid leukemia with FLT3-ITD at diagnosis and relapse
AU - Garg, Manoj
AU - Nagata, Yasunobu
AU - Kanojia, Deepika
AU - Mayakonda, Anand
AU - Yoshida, Kenichi
AU - Keloth, Sreya Haridas
AU - Zang, Zhi Jiang
AU - Okuno, Yusuke
AU - Shiraishi, Yuichi
AU - Chiba, Kenichi
AU - Tanaka, Hiroko
AU - Miyano, Satoru
AU - Ding, Ling Wen
AU - Alpermann, Tamara
AU - Sun, Qiao Yang
AU - Lin, De Chen
AU - Chien, Wenwen
AU - Madan, Vikas
AU - Liu, Li Zhen
AU - Tan, Kar Tong
AU - Sampath, Abhishek
AU - Venkatesan, Subhashree
AU - Inokuchi, Koiti
AU - Wakita, Satoshi
AU - Yamaguchi, Hiroki
AU - Chng, Wee Joo
AU - Kham, Shirley Kow Yin
AU - Yeoh, Allen Eng Juh
AU - Sanada, Masashi
AU - Schiller, Joanna
AU - Kreuzer, Karl Anton
AU - Kornblau, Steven M.
AU - Kantarjian, Hagop M.
AU - Haferlach, Torsten
AU - Lill, Michael
AU - Kuo, Ming Chung
AU - Shih, Lee Yung
AU - Blau, Igor Wolfgang
AU - Blau, Olga
AU - Yang, Henry
AU - Ogawa, Seishi
AU - Koeffler, H. Phillip
N1 - Publisher Copyright:
© 2015 by The American Society of Hematology.
PY - 2015/11/26
Y1 - 2015/11/26
N2 - Acute myeloid leukemia (AML) with an FLT3 internal tandem duplication (FLT3-ITD) mutation is an aggressive hematologicmalignancy with a grave prognosis. To identify the mutational spectrumassociated with relapse, whole-exomesequencing was performed on 13matched diagnosis, relapse, and remission trios followed by targeted sequencing of 299 genes in 67 FLT3-ITD patients. The FLT3-ITD genome has an average of 13 mutations per sample, similar to other AML subtypes, which is a low mutation rate compared with that in solid tumors. Recurrent mutations occur in genes related to DNA methylation, chromatin, histonemethylation, myeloid transcription factors, signaling, adhesion, cohesin complex, and the spliceosome. Their pattern of mutual exclusivity and cooperation among mutated genes suggests that these genes have a strong biological relationship. In addition, we identifiedmutations in previously unappreciated genes such as MLL3, NSD1, FAT1, FAT4, and IDH3B. Mutations in 9 genes were observed in the relapse-specific phase. DNMT3A mutationsare themost stablemutations,and thisDNMT3A-transformed clonecan be present eveninmorphologic complete remissions. Of note, all AML matched trio samples shared at least 1 genomic alteration at diagnosis and relapse, suggesting common ancestral clones. Two types of clonal evolution occur at relapse: either the founder clone recurs or a subclone of the founder clone escapes from induction chemotherapy and expands at relapse by acquiring new mutations. Relapse-specific mutations displayed an increase in transversions. Functional assays demonstrated that both MLL3 and FAT1 exert tumor-suppressor activity in the FLT3-ITD subtype. An inhibitor of XPO1 synergized with standard AML induction chemotherapy to inhibit FLT3-ITD growth. This study clearly shows that FLT3-ITD AML requires additional driver genetic alterations in addition to FLT3-ITD alone.
AB - Acute myeloid leukemia (AML) with an FLT3 internal tandem duplication (FLT3-ITD) mutation is an aggressive hematologicmalignancy with a grave prognosis. To identify the mutational spectrumassociated with relapse, whole-exomesequencing was performed on 13matched diagnosis, relapse, and remission trios followed by targeted sequencing of 299 genes in 67 FLT3-ITD patients. The FLT3-ITD genome has an average of 13 mutations per sample, similar to other AML subtypes, which is a low mutation rate compared with that in solid tumors. Recurrent mutations occur in genes related to DNA methylation, chromatin, histonemethylation, myeloid transcription factors, signaling, adhesion, cohesin complex, and the spliceosome. Their pattern of mutual exclusivity and cooperation among mutated genes suggests that these genes have a strong biological relationship. In addition, we identifiedmutations in previously unappreciated genes such as MLL3, NSD1, FAT1, FAT4, and IDH3B. Mutations in 9 genes were observed in the relapse-specific phase. DNMT3A mutationsare themost stablemutations,and thisDNMT3A-transformed clonecan be present eveninmorphologic complete remissions. Of note, all AML matched trio samples shared at least 1 genomic alteration at diagnosis and relapse, suggesting common ancestral clones. Two types of clonal evolution occur at relapse: either the founder clone recurs or a subclone of the founder clone escapes from induction chemotherapy and expands at relapse by acquiring new mutations. Relapse-specific mutations displayed an increase in transversions. Functional assays demonstrated that both MLL3 and FAT1 exert tumor-suppressor activity in the FLT3-ITD subtype. An inhibitor of XPO1 synergized with standard AML induction chemotherapy to inhibit FLT3-ITD growth. This study clearly shows that FLT3-ITD AML requires additional driver genetic alterations in addition to FLT3-ITD alone.
UR - http://www.scopus.com/inward/record.url?scp=84948953284&partnerID=8YFLogxK
U2 - 10.1182/blood-2015-05-646240
DO - 10.1182/blood-2015-05-646240
M3 - 文章
C2 - 26438511
AN - SCOPUS:84948953284
SN - 0006-4971
VL - 126
SP - 2491
EP - 2501
JO - Blood
JF - Blood
IS - 22
ER -