Complete suspension culture of human induced pluripotent stem cells supplemented with suppressors of spontaneous differentiation.

IF 6.4 1区 生物学 Q1 BIOLOGY eLife Pub Date : 2024-11-12 DOI:10.7554/eLife.89724
Mami Matsuo-Takasaki, Sho Kambayashi, Yasuko Hemmi, Tamami Wakabayashi, Tomoya Shimizu, Yuri An, Hidenori Ito, Kazuhiro Takeuchi, Masato Ibuki, Terasu Kawashima, Rio Masayasu, Manami Suzuki, Yoshikazu Kawai, Masafumi Umekage, Tomoaki M Kato, Michiya Noguchi, Koji Nakade, Yukio Nakamura, Tomoyuki Nakaishi, Naoki Nishishita, Masayoshi Tsukahara, Yohei Hayashi
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Abstract

Human induced pluripotent stem cells (hiPSCs) are promising resources for producing various types of tissues in regenerative medicine; however, the improvement in a scalable culture system that can precisely control the cellular status of hiPSCs is needed. Utilizing suspension culture without microcarriers or special materials allows for massive production, automation, cost-effectiveness, and safety assurance in industrialized regenerative medicine. Here, we found that hiPSCs cultured in suspension conditions with continuous agitation without microcarriers or extracellular matrix components were more prone to spontaneous differentiation than those cultured in conventional adherent conditions. Adding PKCβ and Wnt signaling pathway inhibitors in the suspension conditions suppressed the spontaneous differentiation of hiPSCs into ectoderm and mesendoderm, respectively. In these conditions, we successfully completed the culture processes of hiPSCs, including the generation of hiPSCs from peripheral blood mononuclear cells with the expansion of bulk population and single-cell sorted clones, long-term culture with robust self-renewal characteristics, single-cell cloning, direct cryopreservation from suspension culture and their successful recovery, and efficient mass production of a clinical-grade hiPSC line. Our results demonstrate that precise control of the cellular status in suspension culture conditions paves the way for their stable and automated clinical application.

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用自发分化抑制剂对人类诱导多能干细胞进行完全悬浮培养。
人类诱导多能干细胞(hiPSCs)是再生医学中生产各种组织的有前途的资源;然而,需要改进可扩展的培养系统,以精确控制 hiPSCs 的细胞状态。利用无微载体或特殊材料的悬浮培养可实现大规模生产、自动化、成本效益和工业化再生医学的安全保证。在这里,我们发现在不含微载体或细胞外基质成分、持续搅拌的悬浮条件下培养的 hiPSCs 比在传统粘附条件下培养的 hiPSCs 更容易自发分化。在悬浮条件下添加 PKCβ 和 Wnt 信号通路抑制剂可分别抑制 hiPSCs 向外胚层和中胚层的自发分化。在这些条件下,我们成功地完成了hiPSCs的培养过程,包括从外周血单核细胞中产生hiPSCs,并扩增出大细胞群和单细胞分选克隆,长期培养并具有强大的自我更新特性,单细胞克隆,从悬浮培养中直接冷冻保存并成功复苏,以及高效地批量生产临床级hiPSC品系。我们的研究结果表明,在悬浮培养条件下精确控制细胞状态为其稳定和自动化临床应用铺平了道路。
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来源期刊
eLife
eLife BIOLOGY-
CiteScore
12.90
自引率
3.90%
发文量
3122
审稿时长
17 weeks
期刊介绍: eLife is a distinguished, not-for-profit, peer-reviewed open access scientific journal that specializes in the fields of biomedical and life sciences. eLife is known for its selective publication process, which includes a variety of article types such as: Research Articles: Detailed reports of original research findings. Short Reports: Concise presentations of significant findings that do not warrant a full-length research article. Tools and Resources: Descriptions of new tools, technologies, or resources that facilitate scientific research. Research Advances: Brief reports on significant scientific advancements that have immediate implications for the field. Scientific Correspondence: Short communications that comment on or provide additional information related to published articles. Review Articles: Comprehensive overviews of a specific topic or field within the life sciences.
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