Wilmer Eye Institute, Baltimore, Maryland 21784, USA.
Invest Ophthalmol Vis Sci. 2012 Dec 3;53(13):7912-27. doi: 10.1167/iovs.12-10140.
The mode of development of the human hyaloid vascular system (HVS) remains unclear. Early studies suggested that these blood vessels formed by vasculogenesis, while the current concept seems to favor angiogenesis as the mode of development. We examined embryonic and fetal human HVS using a variety of techniques to gain new insights into formation of this vasculature.
Embryonic and fetal human eyes from 5.5 to 12 weeks gestation (WG) were prepared for immunohistochemical analysis or for light and electron microscopy. Immunolabeling of sections with a panel of antibodies directed at growth factors, transcription factors, and hematopoietic stem cell markers was employed.
Light microscopic examination revealed free blood islands (BI) in the embryonic vitreous cavity (5.5-7 WG). Giemsa stain revealed that BI were aggregates of mesenchymal cells and primitive nucleated erythroblasts. Free cells were also observed. Immunolabeling demonstrated that BI were composed of mesenchymal cells that expressed hemangioblast markers (CD31, CD34, C-kit, CXCR4, Runx1, and VEGFR2), erythroblasts that expressed embryonic hemoglobin (Hb-ε), and cells that expressed both. Few cells were proliferating as determined by lack of Ki67 antigen. As development progressed (12 WG), blood vessels became more mature structurally with pericyte investment and basement membrane formation. Concomitantly, Hb-ε and CXCR4 expression was down-regulated and von Willebrand factor expression was increased with the formation of Weibel-Palade bodies.
Our results support the view that the human HVS, like the choriocapillaris, develops by hemo-vasculogenesis, the process by which vasculogenesis, erythropoiesis, and hematopoiesis occur simultaneously from common precursors, hemangioblasts.
人类玻璃膜血管系统(HVS)的发育模式仍不清楚。早期的研究表明这些血管是通过血管发生形成的,而目前的概念似乎倾向于血管生成是其发育的模式。我们使用各种技术检查胚胎和胎儿人 HVS,以获得对这种血管形成的新见解。
对 5.5 至 12 周龄(WG)的胚胎和胎儿人眼进行免疫组织化学分析或进行光镜和电子显微镜检查。使用针对生长因子、转录因子和造血干细胞标志物的抗体面板对切片进行免疫标记。
光镜检查显示胚胎玻璃体内有游离血岛(BI)(5.5-7 WG)。吉姆萨染色显示 BI 是间质细胞和原始有核红细胞的聚集物。还观察到游离细胞。免疫标记表明 BI 由表达血管母细胞标志物(CD31、CD34、C-kit、CXCR4、Runx1 和 VEGFR2)的间质细胞、表达胚胎血红蛋白(Hb-ε)的红细胞以及同时表达两者的细胞组成。Ki67 抗原缺乏表明很少有细胞增殖。随着发育的进行(12 WG),血管在结构上变得更加成熟,有周细胞浸润和基底膜形成。同时,Hb-ε 和 CXCR4 的表达下调,von Willebrand 因子的表达增加,伴随着 Weibel-Palade 小体的形成。
我们的结果支持这样一种观点,即人类 HVS 与脉络膜毛细血管一样,通过造血血管发生发育,即血管发生、红细胞生成和造血同时从共同的前体——血管母细胞发生。