移植与器官保存

H. Noguchi
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The JSOPMB was founded in 1974 for the study of organ preservation and developed widely in the 1990s with the participation of researchers in various fields, including medicine, pharmacology, engineering, veterinary medicine, and basic science. Currently, the JSOPMB has more than 700 members and is run under the direction of Professor Takashi Kenmochi, the president of the JSOPMB. Excellent presentations from the 43rd annual meeting of the JSOPMB, held between 26–27 November 2016, in Tokyo, Japan, under the supervision of Dr Toshihiko Hirano (Professor, Department of Clinical Pharmacology, Tokyo University of Pharmacy and Life Sciences, Tokyo, Japan), were selected and given an opportunity to be published in this special issue of Cell Medicine. Five of these presentations are herein published in this special JSOPMB issue. Onoshima et al. developed a microfluidic chip for depositing single cells in micro-wells using simple micropipette operation. The chip will serve as a tool for single-cell patterning in an easy-to-use manner. Miyamoto et al. investigated the effects of temperature during long-term storage (8 years at 80 C and in LN2 phase) on the quality of various cells (HepG2, HH, NIH3T3, and STO cells) using culture medium containing 10% dimethyl sulfoxide (DMSO), Cell Banker 1, and Cell Banker 2. Among these solutions, Cell Banker 1 showed the highest efficiency. Stem cell research was a major topic of interest. There were two articles regarding stem cells. Miyagi-Shiohira et al. showed the development of cancer through induced pluripotent stem cell (iPSC) technology. They generated ‘induced fibroblast-like (iF) cells’ by the transient overexpression of reprogramming factors. Although the morphology of iF cells were fibroblastic, iF cells are unlikely to show adipogenic/ osteogenic differentiation. Moreover, iF cells have the ability to form tumors and behave similarly to pancreatic cancer cells. The technology used in the generation of iPSCs is also associated with the risk of generating cancer-like cells. Tsugata et al. evaluated the role of early growth response 1 (EGR1) on pancreatic endoderm differentiation. Their data suggest that the downregulation of EGR1 in the early phase can efficiently induce the differentiation of iPSCs into insulin-producing cells. There was one article regarding pancreatic islet purification. Ebi et al. evaluated islet purification methods for making a continuous density gradient and loading tissue. One method involved loading digested tissue on top of a continuous density gradient (‘top loading’ (TL)). The other method involved mixing digested tissue with low-density solution and then making a continuous gradient (‘mixed loading’ (ML)). There were no significant differences between the two purification methods, suggesting the equivalency of these two methods of islet purification. 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引用次数: 0

摘要

我代表日本器官保存与医学生物学学会(JSOPMB),衷心感谢《细胞医学》主编德拉戈斯·克雷托为我们提供了一个绝佳的机会来发表在JSOPMB年会上提交的数据。我也感谢《细胞医学》总编辑Samantha M.Portis对我们文章的详细编辑。我非常确信,细胞医学和JSOPMB之间的关系增强了JSOPMB成员和董事会成员的动力,并将在未来继续这样做,同时也鼓励年轻的日本研究人员加入这个组织。JSOPMB年会的一个极其重要的任务是交流新的研究成果和创造新的治疗理念。JSOPMB始终鼓励和激励年轻的调查人员。JSOPMB成立于1974年,旨在研究器官保存,并于20世纪90年代在医学、药理学、工程、兽医和基础科学等多个领域的研究人员的参与下广泛发展。目前,JSOPMB有700多名成员,由JSOPMB主席Takashi Kenmochi教授领导。2016年11月26日至27日在日本东京举行的JSOPMB第43届年会在平野俊彦博士(日本东京药物学与生命科学大学临床药理学系教授)的指导下,选出了精彩的演讲,并有机会发表在本期《细胞医学》特刊上。其中五个专题介绍发表在本期JSOPMB特刊上。Onoshima等人开发了一种微流控芯片,用于使用简单的微量移液管操作将单细胞沉积在微孔中。该芯片将以一种易于使用的方式作为单细胞图案化的工具。Miyamoto等人使用含有10%二甲基亚砜(DMSO)、Cell Banker 1和Cell Banker2的培养基,研究了长期储存期间(在80℃下8年和LN2期)温度对各种细胞(HepG2、HH、NIH3T3和STO细胞)质量的影响。在这些解决方案中,Cell Banker 1显示出最高的效率。干细胞研究是人们感兴趣的一个主要话题。有两篇关于干细胞的文章。Miyagi-Shioshira等人通过诱导多能干细胞(iPSC)技术展示了癌症的发展。他们通过重编程因子的瞬时过表达产生“诱导成纤维细胞样(iF)细胞”。尽管iF细胞的形态是成纤维细胞,但iF细胞不太可能表现出成脂/成骨分化。此外,iF细胞具有形成肿瘤的能力,并且表现类似于胰腺癌症细胞。iPSC产生中使用的技术也与产生癌样细胞的风险有关。Tsugata等人评估了早期生长反应1(EGR1)在胰腺内胚层分化中的作用。他们的数据表明,早期EGR1的下调可以有效地诱导iPSC分化为产生胰岛素的细胞。有一篇关于胰岛纯化的文章。Ebi等人评估了制作连续密度梯度和装载组织的胰岛纯化方法。一种方法是将消化组织装载在连续密度梯度的顶部(“顶部装载”(TL))。另一种方法是将消化组织与低密度溶液混合,然后形成连续梯度(“混合负荷”(ML))。两种纯化方法之间没有显著差异,表明这两种胰岛纯化方法是等效的。本期JSOPMB的主题是“移植和器官保存”。董事会成员和我都期待着JSOPMB与细胞医学的合作取得进一步进展。
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Transplantation and Organ Preservation
On behalf of the Japan Society for Organ Preservation and Medical Biology (JSOPMB), I express my sincere appreciation to Dragos Cretoiu, Editor-in-Chief of Cell Medicine, for providing us with an excellent opportunity to publish the data that were presented at the annual meeting of the JSOPMB. I also thank Samantha M. Portis, Managing Editor of Cell Medicine, for the detailed editing of our articles. I am very sure that the relationship between Cell Medicine and JSOPMB has enhanced the motivation of JSOPMB members as well as board members and will continue to do so in the future, while also encouraging young Japanese researchers to join this organization. One of the extremely important missions of the annual meeting of the JSOPMB is to exchange new research outcomes and create new therapeutic concepts. The JSOPMB always encourages and motivates young investigators. The JSOPMB was founded in 1974 for the study of organ preservation and developed widely in the 1990s with the participation of researchers in various fields, including medicine, pharmacology, engineering, veterinary medicine, and basic science. Currently, the JSOPMB has more than 700 members and is run under the direction of Professor Takashi Kenmochi, the president of the JSOPMB. Excellent presentations from the 43rd annual meeting of the JSOPMB, held between 26–27 November 2016, in Tokyo, Japan, under the supervision of Dr Toshihiko Hirano (Professor, Department of Clinical Pharmacology, Tokyo University of Pharmacy and Life Sciences, Tokyo, Japan), were selected and given an opportunity to be published in this special issue of Cell Medicine. Five of these presentations are herein published in this special JSOPMB issue. Onoshima et al. developed a microfluidic chip for depositing single cells in micro-wells using simple micropipette operation. The chip will serve as a tool for single-cell patterning in an easy-to-use manner. Miyamoto et al. investigated the effects of temperature during long-term storage (8 years at 80 C and in LN2 phase) on the quality of various cells (HepG2, HH, NIH3T3, and STO cells) using culture medium containing 10% dimethyl sulfoxide (DMSO), Cell Banker 1, and Cell Banker 2. Among these solutions, Cell Banker 1 showed the highest efficiency. Stem cell research was a major topic of interest. There were two articles regarding stem cells. Miyagi-Shiohira et al. showed the development of cancer through induced pluripotent stem cell (iPSC) technology. They generated ‘induced fibroblast-like (iF) cells’ by the transient overexpression of reprogramming factors. Although the morphology of iF cells were fibroblastic, iF cells are unlikely to show adipogenic/ osteogenic differentiation. Moreover, iF cells have the ability to form tumors and behave similarly to pancreatic cancer cells. The technology used in the generation of iPSCs is also associated with the risk of generating cancer-like cells. Tsugata et al. evaluated the role of early growth response 1 (EGR1) on pancreatic endoderm differentiation. Their data suggest that the downregulation of EGR1 in the early phase can efficiently induce the differentiation of iPSCs into insulin-producing cells. There was one article regarding pancreatic islet purification. Ebi et al. evaluated islet purification methods for making a continuous density gradient and loading tissue. One method involved loading digested tissue on top of a continuous density gradient (‘top loading’ (TL)). The other method involved mixing digested tissue with low-density solution and then making a continuous gradient (‘mixed loading’ (ML)). There were no significant differences between the two purification methods, suggesting the equivalency of these two methods of islet purification. The theme of this JSOPMB issue is ‘Transplantation and Organ Preservation’. The board members and I are looking forward to seeing further progress with the JSOPMB in conjunction with Cell Medicine.
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Cell medicine
Cell medicine MEDICINE, RESEARCH & EXPERIMENTAL-
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