用共培养系统产生的视网膜祖细胞的特性

Sara Momenzadeh, F. Karamali, A. Atefi, M. Nasr-Esfahani
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引用次数: 1

摘要

目的视网膜病变引起的光感受器变性可影响视力,甚至导致失明。近年来,利用人类胚胎干细胞(hESCs)治疗视网膜变性的进展一直面临着技术挑战,需要制定简单和标准化的方案。除了方案的设计之外,对获得的细胞进行表征是非常必要的,以确认所应用方法在未来医学应用中的可靠性。在此之前,我们已经证明了人类根尖乳头(SCAP)干细胞具有基质细胞衍生诱导活性(SDIA)。在本实验研究中,我们开发了一种高效的视网膜分化方案,基于融合hESCs和SCAP共同培养,在缺乏外源分子(如分子信号通路的激活剂或抑制剂)的情况下。该实验过程在4周内产生了含有视网膜祖细胞(rpc)的自形成神经视网膜(NR)样结构。我们专注于衍生rpc的表征,作为进一步验证我们先前建议的方案效率的关键一步。分化后的细胞表达视野标记物PAX6、RAX、LHX2和SIX3,并在漂浮培养系统中产生神经球一周。结论Notch通路抑制剂处理hesc来源的RPCs可诱导光受体前体细胞(PPCs)的生成。该方法表明,无外源分子的hESCs和SCAP共培养提供了一种有效的方法来产生用于治疗视网膜疾病的rpc,并作为人类视网膜发育的体外模型。
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Characterization of The Retinal Progenitor Cells Generated Using Co-Culture Systems
Objective Degeneration of the photoreceptors due to retinal disorders can affect vision, and even lead to blindness. Recently therapeutic progress in retinal degeneration, using human embryonic stem cells (hESCs), has been facing technical challenges, demanding the development of simple and standardized protocols. In addition to the designing of the protocols, characterization of the obtained cells is highly required for confirming the reliability of the applied methods for future medical applications. Previously, we showed that human stem cells from apical papilla (SCAP) have stromal cell-derived inducing activity (SDIA). Materials and Methods In this experimental study, we developed an efficient retinal differentiation protocol, based on the co-culture of confluent hESCs and SCAP in the absence of exogenous molecules, such as activators or inhibitors of molecular signaling pathways. This experimental procedure resulted in the generation of self-forming neural retina (NR)-like structures containing retinal progenitor cells (RPCs) within 4 weeks. Results We have focused on the characterization of the derived RPCs, as a crucial step towards further verification of the efficiency of our previously suggested protocol. The differentiated cells expressed eye-field markers, PAX6, RAX, LHX2, and SIX3, and also generated neurospheres by a floating culture system for one week. Conclusion We have reported that the treatment of hESC-derived RPCs by the Notch pathway-inhibitor induced the generation of photoreceptor precursor cells (PPCs). The presented method demonstrates the fact that a co-culture of hESCs and SCAP without exogenous molecules provides an efficient approach to produce RPCs for the treatment of retinal disease, and act as an in vitro model for the development of human retina.
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