Leor Jonathan, Rozen Liat, Zuloff-Shani Adi, Feinberg Micha S, Amsalem Yoram, Barbash Israel M, Kachel Erez, Holbova Radka, Mardor Yael, Daniels Dianne, Ocherashvilli Aharon, Orenstein Arie, Danon David
Neufeld Cardiac Research Institute, Tel-Aviv University, Israel.
Circulation. 2006 Jul 4;114(1 Suppl):I94-100. doi: 10.1161/CIRCULATIONAHA.105.000331.
Activated macrophages have a significant role in wound healing and damaged tissue repair. We sought to explore the ability of ex vivo activated macrophages to promote healing and repair of the infarcted myocardium.
Human activated macrophage suspension (AMS) was prepared from a whole blood unit obtained from young donors in a closed sterile system and was activated by a novel method of hypo-osmotic shock. The AMS (approximately 4 x 10(5) cells) included up to 43% CD14-positive cells and was injected into the ischemic myocardium of rats (n=8) immediately after coronary artery ligation. The control group (n=9) was treated with saline injection. The human cells existed in the infarcted heart 4 to 7 days after injection, as indicated by histology, human growth hormone-specific polymerase chain reaction, and magnetic resonance imaging (MRI) tracking of iron oxide-nanoparticle-labeled cells. After 5 weeks, scar vessel density (+/-SE) (25+/-4 versus 10+/-1 per mm2; P<0.05), myofibroblast accumulation, and recruitment of resident monocytes and macrophages were greater in AMS-treated hearts compared with controls. Serial echocardiography studies, before and 5 weeks after injection, showed that AMS improved scar thickening (0.15+/-0.01 versus 0.11+/-0.01 cm; P<0.05), reduced left ventricular (LV) diastolic dilatation (0.87+/-0.02 versus 0.99+/-0.04 cm; P<0.05), and improved LV fractional shortening (31+/-2 versus 20+/-4%; P<0.05), compared with controls.
Early after myocardial infarction, injection of AMS accelerates vascularization, tissue repair, and improves cardiac remodeling and function. Our work suggests a novel clinically relevant option to promote the repair of ischemic tissue.
活化巨噬细胞在伤口愈合和受损组织修复中起重要作用。我们试图探究体外活化巨噬细胞促进梗死心肌愈合和修复的能力。
在封闭无菌系统中,从年轻供体获取的全血单位制备人活化巨噬细胞悬液(AMS),并通过一种新型低渗休克方法进行活化。AMS(约4×10⁵个细胞)包含高达43%的CD14阳性细胞,在冠状动脉结扎后立即注入大鼠(n = 8)的缺血心肌。对照组(n = 9)接受盐水注射。组织学、人生长激素特异性聚合酶链反应以及氧化铁纳米颗粒标记细胞的磁共振成像(MRI)追踪显示,注射后4至7天,人细胞存在于梗死心脏中。5周后,与对照组相比,AMS治疗的心脏瘢痕血管密度(±标准误)(每平方毫米25±4对10±1;P<0.05)、肌成纤维细胞积聚以及驻留单核细胞和巨噬细胞的募集更多。注射前及注射后5周的系列超声心动图研究表明,与对照组相比,AMS改善了瘢痕增厚(0.15±0.01对0.11±0.01厘米;P<0.05),减少了左心室(LV)舒张期扩张(0.87±0.02对0.99±0.04厘米;P<0.05),并改善了LV缩短分数(31±2对20±4%;P<0.05)。
心肌梗死后早期,注射AMS可加速血管生成、组织修复,并改善心脏重塑和功能。我们的工作提示了一种促进缺血组织修复的新型临床相关方法。
