人类胚胎干细胞衍生的视网膜器官组织在运输和移植到视网膜变性大鼠体内后的存活和功能整合。

Stem cells and development Pub Date : 2024-05-01 Epub Date: 2024-04-03 DOI:10.1089/scd.2023.0257
Bin Lin, Ratnesh K Singh, Magdalene J Seiler, Igor O Nasonkin
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摘要

由于视网膜器官组织(ROs)的衍生和移植经常在地理位置遥远的地方进行,我们开发了一种特殊的运输设备和方案,能够将器官组织运送到任何地方。人类胚胎干细胞(hESC)衍生的视网膜器官从hESC品系H1(WA01)分化出来,连夜运送到另一个地方,然后移植到免疫缺陷性视网膜变性(RD)盲鼠的视网膜下间隙。通过光谱域光学相干断层扫描监测移植体的发育情况。通过视运动试验和上丘(SC)电生理学检查视觉功能。移植体的冰冻切片用苏木精和伊红染色,或进行免疫组化处理,以标记人类供体细胞、视网膜细胞类型和突触标记物。移植后,RO融入宿主RD视网膜,形成功能性光感受器,改善了晚期RD大鼠的视力。其存活率和视力改善效果与我们之前在没有远距离输送的情况下移植 hESC-ROs 的结果相当。此外,我们在干细胞移植领域首次证明,SC上的反应热图与移植体在宿主视网膜上的位置形状相似,这表明移植体从视网膜到SC的点对点投射。总之,我们的研究结果表明,利用我们的特殊装置和方案,hESC 衍生的 ROs 可以远距离运输,并且移植到 RD 大鼠体内后能够存活并改善视力。我们的数据为干细胞替代治疗RD患者提供了概念验证。
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Survival and Functional Integration of Human Embryonic Stem Cell-Derived Retinal Organoids After Shipping and Transplantation into Retinal Degeneration Rats.

Because derivation of retinal organoids (ROs) and transplantation are frequently split between geographically distant locations, we developed a special shipping device and protocol capable of the organoids' delivery to any location. Human embryonic stem cell (hESC)-derived ROs were differentiated from the hESC line H1 (WA01), shipped overnight to another location, and then transplanted into the subretinal space of blind immunodeficient retinal degeneration (RD) rats. Development of transplants was monitored by spectral-domain optical coherence tomography. Visual function was accessed by optokinetic tests and superior colliculus (SC) electrophysiology. Cryostat sections through transplants were stained with hematoxylin and eosin; or processed for immunohistochemistry to label human donor cells, retinal cell types, and synaptic markers. After transplantation, ROs integrated into the host RD retina, formed functional photoreceptors, and improved vision in rats with advanced RD. The survival and vision improvement are comparable with our previous results of hESC-ROs without a long-distance delivery. Furthermore, for the first time in the stem cell transplantation field, we demonstrated that the response heatmap on the SC showed a similar shape to the location of the transplant in the host retina, which suggested the point-to-point projection of the transplant from the retina to SC. In conclusion, our results showed that using our special device and protocol, the hESC-derived ROs can be shipped over long distance and are capable of survival and visual improvement after transplantation into the RD rats. Our data provide a proof-of-concept for stem cell replacement as a therapy for RD patients.

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