| Literature DB >> 32864713 |
Yuko Mishima1,2, Yuji Mishima3, Yuko Shirouchi4, Noriko Nishimura4, Masahiro Yokoyama4, Takashi Okabe4, Norihito Inoue4, Hideki Uryu4, Takanori Fukuta4, Kiyohiko Hatake5, Yasuhito Terui4,3.
Abstract
Somatic gene mutations related to acceleration disease and clonal evolution in multiple myeloma strongly influence severe clinical outcomes. In this study, we traced the transition of somatic mutations during the clinical course of myeloma patients over a long-term follow-up period (8.5 year average). Seven myeloma cases treated with immuno-chemotherapy at our institution were analyzed with clinical courses and the results of FISH and G-band analyses. Furthermore, the target sequences in regard to 121 genes, related to driver mutations or acceleration of disease in myeloma, were performed using bone marrow myeloma samples by next-generation sequencing, Ion Proton™ System. We detected a relationship between an increase in the dominant mutated gene (e.g., TP53, DIS3, FAM46C, KDM6B, and EGR1) and poor prognosis. In particular, clonal escalation of the TP53 mutation could not be overcome by any treatment. The selection of a combination treatment conducted in conjunction with the monitoring of gene mutations is appropriate for long-term survival. Our data demonstrate that long-term follow-up of somatic gene mutations during the clinical course of myeloma is helpful in the development of an effective treatment strategy.Entities:
Keywords: Clonal evolution; Gene mutation; Multiple myeloma; Resistance for therapy; Somatic gene mutation analysis
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Year: 2020 PMID: 32864713 DOI: 10.1007/s12185-020-02979-7
Source DB: PubMed Journal: Int J Hematol ISSN: 0925-5710 Impact factor: 2.490