Department of Surgery, University of New Mexico Health Sciences Center, Albuquerque, NM 87131, USA.
J Surg Res. 2013 Aug;183(2):963-75. doi: 10.1016/j.jss.2013.02.019. Epub 2013 Mar 6.
The controlled recruitment of monocytes from the circulation to the site of injury and their differentiation into tissue macrophages are critical events in the reconstitution of tissue integrity. Subsets of monocytes/macrophages have been implicated in the pathogenesis of atherosclerosis and tumor vascularity; however, the significance of monocyte heterogeneity in physiologic neovascularization is just emerging.
A cranial-based, peninsular-shaped myocutaneous flap was surgically created on the dorsum of wild-type mice (C57BL6) and populations of mice with genetic deletion of subset-specific chemokine ligand-receptor axes important in monocyte trafficking and function (CCL2(-/-) and CX3CR1(-/-)) (n=36 total; 12 mice per group, nine with flap and three unoperated controls). Planimetric analysis of digital photographic images was utilized to determine flap surface viability in wild-type and knockout mice. Real-time myocutaneous flap perfusion and functional revascularization was determined by laser speckle contrast imaging. Image analysis of CD-31 immunostained sections confirmed flap microvascular density and anatomy. Macrophage quantification and localization in flap tissues was determined by F4/80 gene and protein expression. Quantitative reverse transcription-polymerase chain reaction was performed on nonoperative back skin and postoperative flap tissue specimens to determine local gene expression.
Myocutaneous flaps created on wild type and CX3CR1(-/-) mice were engrafted to the recipient site, resulting in viability. In contrast, distal full thickness cutaneous necrosis and resultant flap dehiscence was evident by d 10 in CCL2(-/-) mice. Over 10 d, laser speckle contrast imaging documented immediate graded flap ischemia in all three groups of mice, functional flap revascularization in wild type and CX3CR1(-/-) mice, and lack of distal flap reperfusion in CCL2(-/-) mice. Immunostaining of serial histologic specimens confirmed marked increases in microvascular density and number of macrophages in wild type mice, intermediate increases in CX3CR1(-/-) mice, and no significant change in vessel count or macrophage quantity in CCL2(-/-) mice over the study interval. Finally, quantitative reverse transcriptase polymerase chain reaction demonstrated that the loss of function of chemokine ligand and receptor genes influenced the transcription of local genes involved in monocyte chemotaxis and wound angiogenesis.
In a graded-ischemia wound healing model, monocyte recruitment was severely impaired in CCL2(-/-) mice, resulting in failure of flap revascularization and concomitant cutaneous necrosis. Analysis of CX3CR1-deficient mice revealed adequate monocyte recruitment and revascularization for flap survival; however, the myeloid cell response and magnitude of neovascularization were dampened compared with wild type mice.
从循环中控制募集单核细胞并使其分化为组织巨噬细胞是组织完整性重建的关键事件。单核细胞/巨噬细胞亚群已被牵连到动脉粥样硬化和肿瘤血管生成的发病机制中;然而,单核细胞异质性在生理性新生血管形成中的意义才刚刚出现。
在野生型(C57BL6)小鼠的背部进行了基于颅底的半岛形肌皮瓣手术,并对单核细胞迁移和功能中具有亚群特异性趋化因子配体-受体轴的遗传缺失的小鼠(CCL2(-/-)和 CX3CR1(-/-))进行了人群研究(共 36 只;每组 12 只,9 只带有皮瓣,3 只未手术对照)。利用数字摄影图像的平面分析来确定野生型和敲除型小鼠皮瓣的表面存活率。通过激光散斑对比成像确定实时肌皮瓣灌注和功能再血管化。CD-31 免疫染色切片的图像分析证实了皮瓣微血管密度和解剖结构。通过 F4/80 基因和蛋白表达确定皮瓣组织中的巨噬细胞定量和定位。对非手术背部皮肤和术后皮瓣组织标本进行定量逆转录聚合酶链反应,以确定局部基因表达。
在野生型和 CX3CR1(-/-)小鼠上创建的肌皮瓣被移植到受体部位,导致皮瓣存活。相比之下,CCL2(-/-)小鼠在第 10 天出现远端全层皮肤坏死和皮瓣分离。在 10 天内,激光散斑对比成像记录了三组小鼠的即时分级皮瓣缺血,野生型和 CX3CR1(-/-)小鼠的功能性皮瓣再血管化,以及 CCL2(-/-)小鼠的远端皮瓣再灌注缺失。连续组织学标本的免疫染色证实,野生型小鼠的微血管密度和巨噬细胞数量明显增加,CX3CR1(-/-)小鼠中度增加,CCL2(-/-)小鼠的血管计数或巨噬细胞数量在研究期间没有显著变化。最后,定量逆转录聚合酶链反应表明,趋化因子配体和受体基因的功能丧失影响了参与单核细胞趋化和伤口血管生成的局部基因的转录。
在分级缺血性伤口愈合模型中,CCL2(-/-)小鼠的单核细胞募集严重受损,导致皮瓣再血管化失败和伴随的皮肤坏死。分析 CX3CR1 缺陷型小鼠发现,单核细胞募集和皮瓣存活有足够的再血管化;然而,与野生型小鼠相比,髓样细胞反应和新生血管化的程度受到抑制。
