Vascular Biology Program and Department of Surgery, Children's Hospital Boston, Harvard Medical School, Boston, MA 02115, USA.
Blood. 2011 Dec 15;118(25):6718-21. doi: 10.1182/blood-2011-08-375188. Epub 2011 Oct 28.
The ability to form anastomoses with the host circulation is essential for vascular networks incorporated within cell-seeded bioengineered tissues. Here, we tested whether and how rapidly human endothelial colony forming cell (ECFC)/mesenchymal progenitor cell (MPC)-derived bioengineered vessels, originally perfused in one mouse, could become reperfused in a secondary mouse. Using in vivo labeling with a systemically injected mixture of human- and murine-specific lectins, we demonstrate that ECFC/MPC blood vessels reconnect and are perfused at day 3 after transplantation. Furthermore, we quantified the longitudinal change in perfusion volume in the same implants before and after transplantation using contrast-enhanced micro-ultrasonic imaging. Perfusion was restored at day 3 after transplantation and increased with time, suggesting an important new feature of ECFC/MPC blood vessels: the bioengineered vessels can reconnect with the vasculature when transplanted to a new site. This feature extends the potential applications of this postnatal progenitor cell-based technology for transplantable large tissue-engineered constructs.
在整合了细胞的组织工程化血管中,与宿主循环形成吻合的能力至关重要。在这里,我们测试了在一只小鼠中最初灌注的人内皮集落形成细胞(ECFC)/间充质祖细胞(MPC)衍生的生物工程化血管是否以及如何能够在第二只小鼠中迅速再灌注。我们使用系统注射的人源和鼠源特异性凝集素混合物进行体内标记,证明 ECFC/MPC 血管在移植后第 3 天重新连接并灌注。此外,我们使用对比增强型微超声成像在移植前后对相同植入物中的灌注量进行了定量纵向变化分析。移植后第 3 天恢复灌注,且随时间推移而增加,提示 ECFC/MPC 血管的一个重要新特征:生物工程化血管在移植到新部位时可以与脉管系统重新连接。这一特性扩展了基于这种产后祖细胞的技术在可移植的大型组织工程化构建体中的潜在应用。