CRISPR-Cas9 immune-evasive hESCs are rejected following transplantation into immunocompetent mice.

IF 4.9 Q1 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Frontiers in genome editing Pub Date : 2024-05-28 eCollection Date: 2024-01-01 DOI:10.3389/fgeed.2024.1403395
Henriette Reventlow Frederiksen, Alexandra Glantz, Kåre Kryger Vøls, Søren Skov, Pernille Tveden-Nyborg, Kristine Freude, Ulrik Doehn
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Abstract

Although current stem cell therapies exhibit promising potential, the extended process of employing autologous cells and the necessity for donor-host matching to avert the rejection of transplanted cells significantly limit the widespread applicability of these treatments. It would be highly advantageous to generate a pluripotent universal donor stem cell line that is immune-evasive and, therefore, not restricted by the individual's immune system, enabling unlimited application within cell replacement therapies. Before such immune-evasive stem cells can be moved forward to clinical trials, in vivo testing via transplantation experiments in immune-competent animals would be a favorable approach preceding preclinical testing. By using human stem cells in immune competent animals, results will be more translatable to a clinical setting, as no parts of the immune system have been altered, although in a xenogeneic setting. In this way, immune evasiveness, cell survival, and unwanted proliferative effects can be assessed before clinical trials in humans. The current study presents the generation and characterization of three human embryonic stem cell lines (hESCs) for xenogeneic transplantation in immune-competent mice. The major histocompatibility complexes I- and II-encoding genes, B2M and CIITA, have been deleted from the hESCs using CRISPR-Cas9-targeted gene replacement strategies and knockout. B2M was knocked out by the insertion of murine CD47. Human-secreted embryonic alkaline phosphatase (hSEAP) was inserted in a safe harbor site to track cells in vivo. The edited hESCs maintained their pluripotency, karyotypic normality, and stable expression of murine CD47 and hSEAP in vitro. In vivo transplantation of hESCs into immune-competent BALB/c mice was successfully monitored by measuring hSEAP in blood samples. Nevertheless, transplantation of immune-evasive hESCs resulted in complete rejection within 11 days, with clear immune infiltration of T-cells on day 8. Our results reveal that knockout of B2M and CIITA together with species-specific expression of CD47 are insufficient to prevent rejection in an immune-competent and xenogeneic context.

CRISPR-Cas9 免疫侵袭性 hESC 移植到免疫功能健全的小鼠体内后会发生排斥反应。
虽然目前的干细胞疗法显示出巨大的潜力,但由于采用自体细胞的过程较长,而且必须进行供体-宿主配对,以避免移植细胞的排斥反应,这极大地限制了这些疗法的广泛应用。如果能产生一种多能的通用供体干细胞系,它具有免疫侵袭性,因此不受个人免疫系统的限制,从而能在细胞替代疗法中无限应用,这将是非常有利的。在这种具有免疫侵袭性的干细胞进入临床试验之前,通过在免疫功能健全的动物身上进行移植实验进行体内测试,将是临床前测试的有利方法。通过在免疫功能正常的动物体内使用人类干细胞,结果将更容易转化为临床环境,因为尽管是在异种环境中,但免疫系统的任何部分都没有改变。这样,在对人类进行临床试验之前,就可以对免疫躲避性、细胞存活率和不必要的增殖效应进行评估。目前的研究介绍了三种人类胚胎干细胞系(hESCs)的产生和特征,用于免疫功能健全小鼠的异种移植。利用CRISPR-Cas9靶向基因替换策略和基因敲除技术,从hESCs中删除了主要组织相容性复合体I和II编码基因B2M和CIITA。通过插入小鼠 CD47 基因敲除了 B2M。人分泌的胚胎碱性磷酸酶(hSEAP)被插入到一个安全港部位,以便在体内追踪细胞。经过编辑的 hESCs 在体外保持了多能性、核型正常以及小鼠 CD47 和 hSEAP 的稳定表达。通过测量血液样本中的 hSEAP,成功监测了将 hESCs 移植到免疫功能正常的 BALB/c 小鼠体内的情况。然而,移植具有免疫侵袭性的 hESCs 会在 11 天内导致完全排斥,第 8 天就会出现明显的 T 细胞免疫浸润。我们的研究结果表明,敲除 B2M 和 CIITA 以及物种特异性表达 CD47 不足以防止免疫功能健全和异种情况下的排斥反应。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
7.00
自引率
0.00%
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审稿时长
13 weeks
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