类有机物
诱导多能干细胞
再生医学
基因组编辑
清脆的
计算生物学
干细胞
生物
医学
癌症研究
精密医学
重编程
药物开发
癌症干细胞
细胞疗法
生物信息学
个性化医疗
细胞生物学
癌症
转化研究
细胞
神经科学
基因
胚胎干细胞
遗传学
作者
Ali G. Turhan,Jinwook W Hwang,Diana Chaker,Albert Tasteyre,Theodoros Latsis,Frank Griscelli,Christophe Desterke,Annelise Bennaceur‐Griscelli
标识
DOI:10.3389/fmed.2021.728543
摘要
Progress made during the last decade in stem cell biology allows currently an unprecedented potential to translate these advances into the clinical applications and to shape the future of regenerative medicine. Organoid technology is amongst these major developments, derived from primary tissues or more recently, from induced pluripotent stem cells (iPSC). The use of iPSC technology offers the possibility of cancer modeling especially in hereditary cancers with germline oncogenic mutations. Similarly, it has the advantage to be amenable to genome editing with introduction of specific oncogenic alterations using CRISPR-mediated gene editing. In the field of regenerative medicine, iPSC-derived organoids hold promise for the generation of future advanced therapeutic medicinal products (ATMP) for organ repair. Finally, it appears that they can be of highly useful experimental tools to determine cell targets of SARS-Cov-2 infections allowing to test anti-Covid drugs. Thus, with the possibilities of genomic editing and the development of new protocols for differentiation toward functional tissues, it is expected that iPSC-derived organoid technology will represent also a therapeutic tool in all areas of medicine.
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