在重症联合免疫缺陷（SCID）小鼠冷冻损伤模型中进行人CD133+细胞的心肌内递送：骨髓来源细胞与脐带血来源细胞的比较

Intramyocardial delivery of human CD133+ cells in a SCID mouse cryoinjury model: Bone marrow vs. cord blood-derived cells.

作者信息

Ma Nan, Ladilov Yury, Moebius Jeannette M, Ong Leelee, Piechaczek Christoph, Dávid Arpád, Kaminski Alexander, Choi Yeong-Hoon, Li Wenzhong, Egger Dietmar, Stamm Christof, Steinhoff Gustav

机构信息

Department of Cardiac Surgery, University of Rostock, Rostock, Germany.

出版信息

Cardiovasc Res. 2006 Jul 1;71(1):158-69. doi: 10.1016/j.cardiores.2006.03.020. Epub 2006 Apr 3.

DOI:10.1016/j.cardiores.2006.03.020

PMID:16730684

Abstract

OBJECTIVE

The regenerative potential of endothelial and hematopoietic progenitor cells in the heart may vary according to their origin. This study was designed to compare the functional effects of CD133+ cells from human cord blood and bone marrow in a mouse model of myocardial injury.

METHODS

5 x 10(5) CD133+ cells from bone marrow (BM(CD133)) or cord blood (UCB(CD133)) were injected in the necrosis border zone of NOD/SCID (non-obese diabetic/severe combined immunodeficiency) mice with left ventricular cryoinjury (CI+). Transplanted cells were tracked by immunostaining for hNuclear antigen and by PCR for hDNA. Echocardiography was used to measure contractility. Scar size, capillary density, and cardiomyocyte apoptosis were evaluated by histology. In addition, the myogenic and endothelial differentiation capacity of BM(CD133) and UCB(CD133) was compared in vitro.

RESULTS

DNA was detected 4 weeks after cell injection by PCR, but hNuc+ cells were found by immunostaining only after 48 h. Capillary density in both BM(CD133) and UCB(CD133) cell-treated CI+ mice was higher than in control CI+ mice, but not different between BM(CD133) and UCB(CD133) cell-treated hearts. There were no differences in scar size and myocardial mass among BM(CD133), UCB(CD133) and control CI+ mice, but cardiomyocyte apoptosis was reduced by both BM(CD133) and UCB(CD133) cells. The post-injury deterioration of shortening fraction (46.2+/-1% in sham-operated mice and 41.3+/-0.8% in control CI+ mice) was prevented by BM(CD133) cells (45.4+/-0.9%), but not by UCB(CD133) cells (40.8+/-0.7%). On the other hand, both BM(CD133) and UCB(CD133) cells abolished post-injury mortality. In vitro, neither cultivated BM(CD133) or UCB(CD133) cells developed into myocytes, but both readily differentiated towards an endothelial cell phenotype.

CONCLUSIONS

While both cord blood and marrow CD133+ cells have some beneficial effects on post-injury angiogenesis and survival, only marrow cells appear to improve myocardial contractility.

摘要

目的

心脏中内皮祖细胞和造血祖细胞的再生潜能可能因其来源不同而有所差异。本研究旨在比较人脐带血和骨髓来源的CD133+细胞在心肌损伤小鼠模型中的功能效应。

方法

将5×10(5)个来自骨髓（BM(CD133)）或脐带血（UCB(CD133)）的CD133+细胞注射到左心室冷冻损伤（CI+）的NOD/SCID（非肥胖糖尿病/严重联合免疫缺陷）小鼠的坏死边界区。通过免疫染色检测人核抗原以及通过PCR检测人DNA来追踪移植细胞。使用超声心动图测量收缩力。通过组织学评估瘢痕大小、毛细血管密度和心肌细胞凋亡。此外，在体外比较BM(CD133)和UCB(CD133)的成肌和内皮分化能力。

结果

细胞注射4周后通过PCR检测到DNA，但免疫染色仅在48小时后发现hNuc+细胞。BM(CD133)和UCB(CD133)细胞处理的CI+小鼠的毛细血管密度均高于对照CI+小鼠，但BM(CD133)和UCB(CD133)细胞处理的心脏之间无差异。BM(CD133)、UCB(CD133)和对照CI+小鼠之间的瘢痕大小和心肌质量无差异，但BM(CD133)和UCB(CD133)细胞均减少了心肌细胞凋亡。BM(CD133)细胞可预防损伤后缩短分数的恶化（假手术小鼠为46.2±1%，对照CI+小鼠为41.3±0.8%），而UCB(CD133)细胞则不能（40.8±0.7%）。另一方面，BM(CD133)和UCB(CD133)细胞均消除了损伤后的死亡率。在体外，培养的BM(CD133)或UCB(CD133)细胞均未发育为心肌细胞，但两者都易于向内皮细胞表型分化。

结论

虽然脐带血和骨髓CD133+细胞对损伤后血管生成和存活均有一些有益作用，但只有骨髓细胞似乎能改善心肌收缩力。

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在重症联合免疫缺陷（SCID）小鼠冷冻损伤模型中进行人CD133+细胞的心肌内递送：骨髓来源细胞与脐带血来源细胞的比较

Intramyocardial delivery of human CD133+ cells in a SCID mouse cryoinjury model: Bone marrow vs. cord blood-derived cells.

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出版信息

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METHODS

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