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Clinical Trial
. 2020 Dec;191(5):755-763.
doi: 10.1111/bjh.16720. Epub 2020 May 9.

Genomic analysis of multiple myeloma using targeted capture sequencing in the Japanese cohort

Takashi Kanamori  1   2 Masashi Sanada  2 Masaki Ri  1 Hiroo Ueno  3 Dai Nishijima  2 Takahiko Yasuda  2 Takuto Tachita  1 Tomoko Narita  1 Shigeru Kusumoto  1 Atsushi Inagaki  4 Rei Ishihara  5 Yuki Murakami  5 Nobuhiko Kobayashi  6 Yusuke Shiozawa  3   7 Kenichi Yoshida  3 Masahiro M Nakagawa  3 Yasuhito Nannya  3 Yuichi Shiraishi  8 Kenichi Chiba  9 Hiroko Tanaka  9 Satoru Miyano  9 Keizo Horibe  2 Hiroshi Handa  5 Seishi Ogawa  3   10   11 Shinsuke Iida  1
Affiliations
Clinical Trial

Genomic analysis of multiple myeloma using targeted capture sequencing in the Japanese cohort

Takashi Kanamori et al. Br J Haematol. 2020 Dec.

Abstract

Previous genomic studies have revealed the genomic landscape of myeloma cells. Although some of the genomic abnormalities shown are believed to be correlated to the molecular pathogenesis of multiple myeloma and/or clinical outcome, these correlations are not fully understood. The aim of this study is to elucidate the correlation between genomic abnormalities and clinical characteristics by targeted capture sequencing in the Japanese multiple myeloma cohort. We analysed 154 patients with newly diagnosed multiple myeloma. The analysis revealed that the study cohort consisted of a less frequent hyperdiploid subtype (37·0%) with relatively high frequencies of KRAS mutation (36·4%) and IGH-CCND1 translocation (26·6%) compared with previous reports. Moreover, our targeted capture sequencing strategy was able to detect rare IGH-associated chromosomal translocations, such as IGH-CCND2 and IGH-MAFA. Interestingly, all 10 patients harboured MAX mutations accompanied by 14q23 deletion. The patients with del(17p) exhibited an unfavourable clinical outcome, and the presence of KRAS mutation was associated with shorter survival in patients with multiple myeloma, harbouring IGH-CCND1. Thus, our study provides a detailed landscape of genomic abnormalities, which may have potential clinical application for patients with multiple myeloma.

Keywords: IGH-CCND2; IGH-MAFA; multiple myeloma; next-generation sequencing; racial difference.

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References

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