Characterization, isolation, expansion and clinical therapy of human corneal epithelial stem/progenitor cells.

Q4 Biochemistry, Genetics and Molecular Biology Journal of Stem Cells Pub Date : 2014-01-01 DOI:jsc.2014.9.2.79
De-Quan Li, Zhichong Wang, Kyung-Chul Yoon, Fang Bian
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Abstract

Stem cells can be defined as cells that have the capacity to self-renew and the ability to generate differentiated progeny or multiple cell lineages. True stem cells can turn into any type of cells, while progenitor cells are more or less committed to becoming cell types of a particular tissue. Human corneal epithelial stem cells (CESCs) represent a great example and model of adult stem or progenitor cells. Human CESCs have been identified to locate in the basal epithelial layer of the limbus, and thus also referred as to limbal stem cells. We would like to use the both terms, stem and progenitor cells in this chapter based on previous use in the literature for more than two decades. Although the CESCs have been identified to reside at the limbus and many stem cell markers have been proposed, there is no consensus to date regarding the definitive markers for CESCs, and identification and isolation of these cells are still challenging. Based on evaluation of a variety of proposed markers, we have characterized that the CESCs located in the basal layer of human limbal epithelium are small primitive cells expressing three patterns of molecular markers, which represent a unique phenotype of putative corneal epithelial stem or progenitor cells. Based on adult stem cell criteria and the putative limbal stem cell phenotype, our group has attempted to enrich for human CESCs through novel approaches including cell-sizing, adhering to extracellular matrix collagen type IV, and cell sorting for side population or for expression of ABCG2 or connexin 43 cell surface markers. The 5 clonogenic populations isolated from limbal epithelium and its cultures by different methods show the properties that are characteristics of adult stem/progenitor cells: 1) relatively undifferentiated, 2) high proliferative potential, 3) self-renewal. Expansion and cultivation of corneal epithelial progenitor cells have been achieved using different methods, such as limbal tissue explant culture, and limbal epithelial cell suspension co-culture with mouse 3T3 fibroblast feed layer. To avoid the use of xeno-components, two cell lines of commercial human fibroblasts have been identified that support human corneal epithelial regeneration, and have potential use in replacing mouse 3T3 cells for corneal tissue bioengineering. The concept of CESCs has formed the basis for identifying a class of blinding diseases that display features of corneal epithelial stem cell deficiency or limbal stem cell deficiency (LSCD), where the limbal epithelium is damaged. LSCD is characterized by persistent or recurrent epithelial defects, ulceration, corneal vascularization, chronic inflammation, scarring, and conjunctivalization (conjunctival epithelial ingrowth). Only transplantation of CESCs can restore vision. Due to an increasing shortage of corneal donors, corneal tissue engineering is becoming an important discipline that holds great promise for corneal reconstruction. CESCs and optical substrates are known to be the most important factors for corneal tissue bioengineering in regenerative medicine. Our team has recently explored the utilization of natural donor corneal stroma in corneal tissue engineering. In combination with fresh limbal epithelium containing stem cells, and the donor corneal stroma, a great source of natural optical substrate, we developed a native-like corneal equivalent construct with proliferative potential. This corneal construct provides a new clinical cell therapy for corneal reconstruction.

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人角膜上皮干细胞/祖细胞的鉴定、分离、扩增和临床治疗。
干细胞可以被定义为具有自我更新能力和产生分化后代或多个细胞系的能力的细胞。真正的干细胞可以转化为任何类型的细胞,而祖细胞或多或少地致力于成为特定组织的细胞类型。人角膜上皮干细胞(CESCs)是成体干细胞或祖细胞的一个很好的例子和模型。人类CESCs已被确定位于角膜缘的基底上皮层,因此也被称为角膜缘干细胞。基于二十多年来文献中的使用,我们在本章中将使用干细胞和祖细胞这两个术语。尽管已经确定CESCs位于边缘,并且提出了许多干细胞标记物,但迄今为止,对于CESCs的最终标记物尚未达成共识,并且这些细胞的鉴定和分离仍然具有挑战性。基于对各种标记的评估,我们发现位于人角膜缘上皮基底层的CESCs是表达三种分子标记模式的小原始细胞,它们代表了假定的角膜上皮干细胞或祖细胞的独特表型。基于成体干细胞标准和假定的角膜缘干细胞表型,我们的团队尝试通过新的方法来富集人类CESCs,包括细胞大小、粘附细胞外基质胶原IV型、侧群细胞分选或表达ABCG2或connexin 43细胞表面标记物。从角膜缘上皮及其培养物中分离得到的5个克隆源性群体表现出成体干细胞/祖细胞的特征:1)相对未分化;2)高增殖潜能;3)自我更新。角膜上皮祖细胞的扩增和培养采用了不同的方法,如角膜缘组织外植体培养、角膜缘上皮细胞悬液与小鼠3T3成纤维细胞饲料层共培养。为了避免异种成分的使用,已经鉴定出两种商业人类成纤维细胞系,它们支持人类角膜上皮再生,并有可能用于替代小鼠3T3细胞用于角膜组织生物工程。CESCs的概念已经形成了识别一类致盲疾病的基础,这些疾病表现为角膜上皮干细胞缺乏症或角膜缘干细胞缺乏症(LSCD)的特征,其中角膜缘上皮受损。LSCD的特征是持续或复发性上皮缺损、溃疡、角膜血管化、慢性炎症、瘢痕形成和结膜化(结膜上皮向内生长)。只有移植CESCs才能恢复视力。由于角膜供体的日益短缺,角膜组织工程正成为角膜重建的一门重要学科。CESCs和光学基质是再生医学中角膜组织生物工程中最重要的因素。我们的团队最近探索了自然供体角膜基质在角膜组织工程中的应用。结合含有干细胞的新鲜角膜缘上皮和供体角膜基质(天然光学基质的重要来源),我们开发了具有增殖潜力的天然样角膜等效结构。这种角膜结构为角膜重建提供了一种新的临床细胞治疗方法。
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来源期刊
Journal of Stem Cells
Journal of Stem Cells Medicine-Transplantation
CiteScore
0.10
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1
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