Reconstructing Mammalian Retinal Tissue: Wnt3a Regulates Laminar Polarity in Retinal Spheroids from Neonatal Mongolian Rats, while RPE Promotes Cell Differentiation

Rieke Matthias, Bytyqi Afrim, Frohns Florian, G. LayerPaul
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引用次数: 4

Abstract

Besides invention of iPSC technology, recent progress of stem cell-based organoids is founded on long-standing 3D-reaggregate approaches from embryonic tissues. In particular, histotypic in vitro reconstruction of avian retinal spheroids was most prolific. For instance, a complete reconstitution of all retinal layers was possible, which was supported by Wnt signalling and factors from the retinal pigmented epithelium (RPE); similar in vitro findings are still missing for mammals. Using an established model of reaggregates from dispersed retinal cells of the neonatal Gerbil [1], we show here that in contrast to supernatant from RPE (RPECM), supplementation with Wnt3a induced a correct inside-out polarity of retinal layers. XAP1+ precursors of photoreceptors (PRs) were correctly found on the external face of the sphere, but general cell differentiation remained limited. If Wnt3a was present for 4 days in vitro (div) only, the correctly polarized tissue further differentiated, e.g., more calretinin+ amacrine cells (CR+ ACs) sent out processes into an ipl-like layer and rhodopsin expression of PRs became detectable. Finally, if Wnt3a during 4 div was followed by RPECM treatment, all retinal layers with most cell types were arranged in correct order, as shown by markers including CR, Pax6, AChE, PKCá, CRALBP, and Cern901. LiCl experiments showed that the canonical Wnt/β-catenin pathway was involved. We conclude that Wnt3a conveyed a correct inside-out laminar polarity but kept cells in an undifferentiated state, while RPECM strongly promoted retinal differentiation. Both together supported a nearly complete retinal tissue reconstruction from fully dispersed cells, as never achieved before for cells from any mammalian retina.
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重建哺乳动物视网膜组织:Wnt3a调节新生蒙古大鼠视网膜球体的层状极性,而RPE促进细胞分化
除了iPSC技术的发明,基于干细胞的类器官的最新进展建立在长期以来胚胎组织的3D再聚集方法的基础上。特别是,鸟类视网膜球体的组织型体外重建最为丰富。例如,所有视网膜层的完全重建是可能的,这得到了来自视网膜色素上皮(RPE)的Wnt信号和因子的支持;哺乳动物的类似体外研究结果仍然缺失。使用已建立的新生儿埃尔比勒分散视网膜细胞再聚集物模型[1],我们在这里表明,与RPE(RPECM)的上清液相比,补充Wnt3a诱导了正确的视网膜层由内而外的极性。XAP1+光感受器(PR)的前体在球体的外表面上被正确地发现,但一般的细胞分化仍然有限。如果Wnt3a仅在体外存在4天(div),则正确极化的组织进一步分化,例如,更多的钙视网膜蛋白+无长突细胞(CR+ACs)发出过程进入ipl样层,并且可以检测到PR的视紫红质表达。最后,如果在4div期间Wnt3a之后进行RPECM处理,则具有大多数细胞类型的所有视网膜层都按正确的顺序排列,如标记物所示,包括CR、Pax6、AChE、PKCá、CRALBP和Cern901。LiCl实验表明,Wnt/β-catenin通路参与其中。我们得出的结论是,Wnt3a传递了正确的由内而外的层流极性,但使细胞保持未分化状态,而RPECM强烈促进视网膜分化。两者共同支持了从完全分散的细胞中几乎完全重建视网膜组织,这是以前从未实现过的哺乳动物视网膜细胞。
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