类器官:个性化医疗的化身。

IF 1.1 Q4 MEDICINE, RESEARCH & EXPERIMENTAL
Hans C Clevers
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引用次数: 27

摘要

干细胞是所有哺乳动物生命的基础。干细胞在我们的一生中构建和维持我们的身体。有两种类型的干细胞:1)胚胎干细胞(ES细胞)在受精后几天内短暂存在于人类或小鼠的早期胚胎中。这些胚胎干细胞可以在实验室中无限生长,并有可能构建我们身体的每一个组织。由于这种“多能性”,胚胎干细胞在再生医学领域的治疗应用前景广阔。从成人身上提取皮肤细胞(或其他细胞),并在实验室中将其转化为具有胚胎干细胞特性的细胞,也就是所谓的iPS细胞,也是可能的。胚胎干细胞技术所面临的许多障碍在iPS细胞中不存在。我们身体的每个器官都被认为拥有自己的专用干细胞。这些成体干细胞替代因磨损、创伤和疾病而丢失的组织。成体干细胞是高度特化的,只能产生它们所在的组织;它们是“多能的”。例如产生所有血细胞的骨髓干细胞、皮肤干细胞和肠道干细胞。即使是大脑,现在也知道它的特化干细胞。成体干细胞可以让我们活到80-90岁,但这是有代价的:它们是最容易转化为癌细胞的细胞。这两种类型的干细胞都可以用来建立“类器官”,即在培养皿中建立的3D结构,再现了它们所代表的器官的许多方面。多能干细胞可以在胚胎形成过程中形成器官。这种方法对中枢神经系统、肾脏和胃肠道的部分器官尤其有效。我们已经证明,携带通用Lgr5标记的成体上皮干细胞可以在组织修复条件下培养,并直接从健康和病变器官(如肠道、肝脏、肺和胰腺)产生上皮类器官。类器官技术为研究发育、生理和疾病、药物开发和个性化医疗开辟了一系列途径。从长远来看,培养的微型器官可能会取代捐赠者的移植器官,并在基因治疗中带来希望。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Organoids: Avatars for Personalized Medicine.

Stem cells are the foundation of all mammalian life. Stem cells build and maintain our bodies throughout life. Two types of stem cells are discerned.1) Embryonic stem cells (ES cells) are briefly present in the early human or mouse embryo, a few days after fertilization. These ES cells can be grown indefinitely in the lab and have the potential to build each and every tissue in our body. Because of this 'pluripotency', ES cells hold great promise for therapeutic application in the field of regenerative medicine. It is also possible to take skin cells (or other cells) from adults and convert these in the lab into cells with ES properties, so called iPS cells. Many of the hurdles that ES cell technology have faced, do not exist for iPS cells.2) Adult stem cells. Every organ in our body is believed to harbor its own dedicated stem cells. These adult stem cells replace tissue that is lost due to wear and tear, trauma and disease. Adult stem cells are highly specialized and can only produce the tissue in which they reside; they are 'multipotent'. Examples are bone marrow stem cells that make all blood cells, skin stem cells and gut stem cells. Even the brain is now known to harbor its specialized stem cells. The adult stem cells allow us to live 80-90 years, but this comes at a cost: they are the cells that most easily transform into cancer cells.Both types of stem cells can be used to establish 'organoids', 3D structures established in a dish, that recapitulate many aspects of the organ they represent. Pluripotent stem cells can be taken through the developmental steps that establish organs during embryogenesis. This has worked particularly well for parts of the the central nervous system, the kidney and GI organs. We have shown that adult epithelial stem cells carrying the generic Lgr5 marker can be cultured under tissue-repair conditions and generate epithelial organoids directly from healthy and diseased organs such as the gut, the liver, the lung and the pancreas. Organoid technology opens a range of avenues for the study of development, physiology and disease, for drug development and for personalized medicine. In the long run, cultured mini-organs may replace transplant organs from donors and hold promise in gene therapy.

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来源期刊
KEIO JOURNAL OF MEDICINE
KEIO JOURNAL OF MEDICINE MEDICINE, RESEARCH & EXPERIMENTAL-
CiteScore
3.10
自引率
0.00%
发文量
23
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