Experimental Cardiovascular Medicine, Bristol Heart Institute, School of Clinical Sciences, University of Bristol, Bristol, United Kingdom.
Arterioscler Thromb Vasc Biol. 2013 Aug;33(8):1872-80. doi: 10.1161/ATVBAHA.113.301217. Epub 2013 Jun 13.
To test the therapeutic activity of perivascular transplantation of encapsulated human mesenchymal stem cells (MSCs) in an immunocompetent mouse model of limb ischemia.
CD1 mice underwent unilateral limb ischemia, followed by randomized treatment with vehicle, alginate microbeads (MBs), MB-encapsulated MSCs (MB-MSCs), or MB-MSCs engineered with glucagon-like peptide-1. Treatments were applied directly in the perivascular space around the femoral artery. Laser Doppler and fluorescent microsphere assessment of blood flow showed a marked improvement of perfusion in the MB-MSCs and MB-MSCs engineered with glucagon-like peptide-1 groups, which was associated with increased foot salvage particularly in MB-MSCs engineered with glucagon-like peptide-1-treated mice. Histological analysis revealed increased capillary and arteriole density in limb muscles of the 2 MSC groups. Furthermore, MB-MSCs engineered with glucagon-like peptide-1 and, to a lesser extent, MB-MSC treatment increased functional arterial collaterals alongside the femoral artery occlusion. Analysis of expressional changes in ischemic muscles showed that MB-MSC transplantation activates a proangiogenic signaling pathway centered on vascular endothelial growth factor A. In contrast, intramuscular MB-MSCs caused inflammatory reaction, but no improvement of reparative vascularization. Importantly, nonencapsulated MSCs were ineffective either by intramuscular or perivascular route.
Perivascular delivery of encapsulated MSCs helps postischemic reperfusion. This novel biological bypass method might be useful in patients not amenable to conventional revascularization approaches.
在免疫活性小鼠肢体缺血模型中,检验血管周移植包封人间充质干细胞(MSCs)的治疗活性。
CD1 小鼠进行单侧肢体缺血,随后随机接受 vehicle、藻酸盐微球(MBs)、MB 包封的 MSCs(MB-MSCs)或胰高血糖素样肽-1 工程化的 MB-MSCs 治疗。治疗直接应用于股动脉周围的血管周间隙。激光多普勒和荧光微球评估血流显示,MB-MSCs 和胰高血糖素样肽-1 工程化的 MB-MSCs 组的灌注明显改善,与足部存活率增加尤其相关,在胰高血糖素样肽-1 处理的 MB-MSCs 工程化的 MB-MSCs 组中更为显著。组织学分析显示,2 个 MSC 组的肢体肌肉中毛细血管和小动脉密度增加。此外,胰高血糖素样肽-1 工程化的 MB-MSCs 并在一定程度上增加了股动脉闭塞处旁功能性动脉侧支。缺血肌肉中表达变化的分析表明,MB-MSC 移植激活了以血管内皮生长因子 A 为中心的促血管生成信号通路。相比之下,肌肉内 MB-MSCs 引起炎症反应,但对修复性血管化没有改善。重要的是,无论是肌肉内还是血管周途径,非包封的 MSCs 均无效。
血管周递送包封的 MSCs 有助于缺血后再灌注。这种新型的生物旁路方法可能对不能进行常规血运重建的患者有用。
