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ID 113971
著者
Jakubikova, Jana Dana Farber Cancer Institute|Harvard Medical School|Biomedical Research Center SAS
Cholujova, Danka Biomedical Research Center SAS
Hideshima, Teru Dana Farber Cancer Institute|Harvard Medical School
Gronesova, Paulina Biomedical Research Center SAS
Soltysova, Andrea Comenius University
原田, 武志 Dana Farber Cancer Institute|Harvard Medical School 徳島大学 教育研究者総覧
Joo, Jungnam National Cancer Center
Kong, Sun-Young National Cancer Center
Szalat, Raphael E. Dana Farber Cancer Institute|Harvard Medical School
Richardson, Paul G. Dana Farber Cancer Institute|Harvard Medical School
Munshi, Nikhil C. Dana Farber Cancer Institute|Harvard Medical School
Dorfman, David M. Brigham and Women’s Hospital|Harvard Medical School
Anderson, Kenneth C. Dana Farber Cancer Institute|Harvard Medical School
キーワード
multiple myeloma
tumor microenvironment
mesenchymal stem cells
3D model
drug resistance
資料タイプ
学術雑誌論文
抄録
Specific niches within the tumor bone marrow (BM) microenvironment afford a sanctuary for multiple myeloma (MM) clones due to stromal cell-tumor cell interactions, which confer survival advantage and drug resistance. Defining the sequelae of tumor cell interactions within the MM niches on an individualized basis may provide the rationale for personalized therapies. To mimic the MM niche, we here describe a new 3D co-culture ex-vivo model in which primary MM patient BM cells are co-cultured with mesenchymal stem cells (MSC) in a hydrogel 3D system. In the 3D model, MSC with conserved phenotype (CD73+CD90+CD105+) formed compact clusters with active fibrous connections, and retained lineage differentiation capacity. Extracellular matrix molecules, integrins, and niche related molecules including N-cadherin and CXCL12 are expressed in 3D MSC model. Furthermore, activation of osteogenesis (MMP13, SPP1, ADAMTS4, and MGP genes) and osteoblastogenic differentiation was confirmed in 3D MSC model. Co-culture of patient-derived BM mononuclear cells with either autologous or allogeneic MSC in 3D model increased proliferation of MM cells, CXCR4 expression, and SP cells. We carried out immune profiling to show that distribution of immune cell subsets was similar in 3D and 2D MSC model systems. Importantly, resistance to novel agents (IMiDs, bortezomib, carfilzomib) and conventional agents (doxorubicin, dexamethasone, melphalan) was observed in 3D MSC system, reflective of clinical resistance. This 3D MSC model may therefore allow for studies of MM pathogenesis and drug resistance within the BM niche. Importantly, ongoing prospective trials are evaluating its utility to inform personalized targeted and immune therapy in MM.
掲載誌名
Oncotarget
ISSN
19492553
出版者
Impact Journals
7
47
開始ページ
77326
終了ページ
77341
発行日
2016-10-13
権利情報
This is an open-access article distributed under the terms of the Creative Commons Attribution License 3.0 (CC BY 3.0) (https://creativecommons.org/licenses/by/3.0/) , which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
EDB ID
出版社版DOI
出版社版URL
フルテキストファイル
言語
eng
著者版フラグ
出版社版
部局
病院