冷冻保存的羊水来源细胞：用于心脏瓣膜组织工程的终身自体胎儿干细胞来源

Cryopreserved amniotic fluid-derived cells: a lifelong autologous fetal stem cell source for heart valve tissue engineering.

作者信息

Schmidt Dörthe, Achermann Josef, Odermatt Bernhard, Genoni Michele, Zund Gregor, Hoerstrup Simon P

机构信息

Clinic for Cardiovascular Surgery, Department of Surgical Research, University, University Hospital, Zurich, Switzerland.

出版信息

J Heart Valve Dis. 2008 Jul;17(4):446-55; discussion 455.

PMID:18751475

Abstract

BACKGROUND AND AIM OF THE STUDY

Fetal stem cells represent a promising cell source for heart valve tissue engineering. In particular, amniotic fluid-derived cells (AFDC) have been shown to lead to autologous fetal-like heart valve tissues in vitro for pediatric application. In order to expand the versatility of these cells also for adult application, cryopreserved AFDC were investigated as a potential life-long available cell source for heart valve tissue engineering.

METHODS

Human AFDC were isolated using CD133 magnetic beads, and then differentiated and analyzed. After expansion of CD133- as well as CD133+ cells up to passage 7, a part of the cells was cryopreserved. After four months, the cells were re-cultured and phenotyped by flow cytometry and immunohistochemistry, including expression of CD44, CD105, CD90, CD34, CD31, CD141, eNOS and vWF, and compared to their non-cryopreserved counterparts. The stem cell potential was investigated in differentiation assays. The viability of cryopreserved AFDC for heart valve tissue engineering was assessed by creating heart valve leaflets in vitro.

RESULTS

After cryopreservation, amniotic fluid-derived CD133- and CD133+ cells retained their stem cell-like phenotype, expressing mainly CD44, CD90 and CD105. This staining pattern was comparable to that of their non-cryopreserved counterparts. Moreover, CD133- cells demonstrated differentiation potential into osteoblast-like and adipocyte-like cells. CD133+ cells showed characteristics of endothelial-like cells by eNOS, CD141 and beginning vWF expression. When used for the fabrication of heart valve leaflets, cryopreserved CD133- cells produced extracellular matrix elements comparable to their non-cryopreserved counterparts. Moreover, the resulting tissues showed a cellular layered tissue formation covered by functional endothelia. The mechanical properties were similar to those of tissues fabricated from non-cryopreserved cells.

CONCLUSION

The study results suggest that the use of cell bank technology fetal amniotic fluid-derived stem cells might represent a life-long available autologous cell source for heart valve tissue engineering, and also for adult application.

摘要

研究背景与目的

胎儿干细胞是心脏瓣膜组织工程中一种很有前景的细胞来源。特别是，羊水来源细胞（AFDC）已被证明可在体外生成用于儿科应用的自体胎儿样心脏瓣膜组织。为了扩大这些细胞在成人应用中的通用性，对冷冻保存的AFDC作为心脏瓣膜组织工程潜在的终身可用细胞来源进行了研究。

方法

使用CD133磁珠分离人AFDC，然后进行分化和分析。将CD133 - 以及CD133 + 细胞扩增至第7代后，一部分细胞进行冷冻保存。四个月后，将细胞重新培养，并通过流式细胞术和免疫组织化学进行表型分析，包括CD44、CD105、CD90、CD34、CD31、CD141/eNOS和vWF的表达，并与未冷冻保存的对应细胞进行比较。在分化试验中研究干细胞潜能。通过体外构建心脏瓣膜小叶评估冷冻保存的AFDC用于心脏瓣膜组织工程的活力。

结果

冷冻保存后，羊水来源的CD133 - 和CD133 + 细胞保留了其干细胞样表型，主要表达CD44、CD90和CD105。这种染色模式与其未冷冻保存的对应细胞相当。此外，CD133 - 细胞表现出向成骨样细胞和脂肪样细胞分化的潜能。CD133 + 细胞通过eNOS、CD141和开始表达血管性血友病因子（vWF）表现出内皮样细胞的特征。当用于制造心脏瓣膜小叶时，冷冻保存的CD133 - 细胞产生的细胞外基质成分与其未冷冻保存的对应细胞相当。此外，所形成的组织显示出由功能性内皮覆盖的细胞分层组织形成。力学性能与由未冷冻保存的细胞制造的组织相似。