Krum J M, Rosenstein J M
Department of Anatomy and Cell Biology, The George Washington University Medical Center, Washington, DC 20037, USA.
Exp Neurol. 1999 Dec;160(2):348-60. doi: 10.1006/exnr.1999.7222.
The spatial and temporal immunoexpression of the intermediate filament (IF) protein nestin and its relationship to glial fibrillary acidic protein (GFAP), vascular endothelial growth factor (VEGF), and its receptor flt-1 (VEGF-R1) in reactive astroglia was examined following stab wounds or transplants of fetal CNS tissue into the adult brain. Since developmentally regulated proteins and gene transcripts can be reexpressed in reactive astroglia following certain brain injuries, we analyzed the nestin profile in these experimental paradigms in order to more fully understand the nature of the gliotic "scar." Nestin expression was transiently up-regulated in some but not all astrocytes which often had a different morphology than the typical stout, stellate GFAP (+) cells; the processes of the nestin (+) cells tended to be slender and elongated. In reactive astroglia from the mature brain, nestin expression was robust but generally localized to the wound or graft site, peaked at 7-10 days postoperative, and was absent by 28 days, whereas GFAP (+) astrocytes were far more widespread and persisted for many months. Only nestin was strongly expressed immediately adjacent to early stab wounds, whereas GFAP (+) cells were located further from the wound sites. In contrast, there was marked nestin/GFAP colocalization at the graft/host interface. Semiquantitative analysis combined with confocal microscopy revealed a unique compartmentalization of protein expression; processes from single astrocytes could be entirely nestin (+), GFAP (+), or could show coexpression. At 4, 7, and 14 days postoperative, 41, 58, and 32% of the immunoexpression, respectively, was accounted for by nestin at the graft/host interface, and it was essentially undetectable at 28 days postoperative. In situ hybridization studies showed nestin transcripts within GFAP (+) cells primarily between 4 and 10 days postoperative and absent by 28 days. Many nestin (+) astrocytes, as shown by electron microscopy, were closely related to the vasculature. Therefore we further examined the expression of vascular endothelial growth factor (VEGF), an endothelial cell mitogen associated with angiogenesis. Nestin colocalized with VEGF in some astrocytes (7%) but far more prominently with the VEGF flt-1 receptor (25%). Early astroglial activation may involve several different IF components and possibly a distinct astrocytic population that shows a rapid, transient nestin expression adjacent to injury sites. Expression of the nestin IF phenotype within affected astrocytes in the surgical vicinity may be indicative of a reversion to an immature phenotype that might be less susceptible to attendant hypoxia after injury. Since injured astrocytes are well known to express many bioactive compounds, such transient reexpression of early, developmentally regulated proteins may be a hallmark for the elaboration of growth factors such as VEGF.
在刺伤或将胎儿中枢神经系统组织移植到成年大脑后,研究了中间丝(IF)蛋白巢蛋白在反应性星形胶质细胞中的时空免疫表达及其与胶质纤维酸性蛋白(GFAP)、血管内皮生长因子(VEGF)及其受体flt-1(VEGF-R1)的关系。由于发育调控的蛋白质和基因转录本在某些脑损伤后的反应性星形胶质细胞中可重新表达,我们分析了这些实验范式中的巢蛋白谱,以便更全面地了解胶质“瘢痕”的本质。巢蛋白表达在一些但并非所有星形胶质细胞中短暂上调,这些星形胶质细胞的形态通常与典型的粗壮、星形GFAP(+)细胞不同;巢蛋白(+)细胞的突起往往细长。在成熟大脑的反应性星形胶质细胞中,巢蛋白表达强烈,但通常局限于伤口或移植部位,术后7 - 10天达到峰值,28天时消失,而GFAP(+)星形胶质细胞分布更广且持续数月。只有巢蛋白在早期刺伤紧邻处强烈表达,而GFAP(+)细胞位于离伤口部位更远的地方。相比之下,在移植/宿主界面有明显的巢蛋白/GFAP共定位。半定量分析结合共聚焦显微镜显示了蛋白质表达的独特分区;单个星形胶质细胞的突起可以完全是巢蛋白(+)、GFAP(+),或者可以显示共表达。术后4天、7天和14天,移植/宿主界面分别有41%、58%和32%的免疫表达由巢蛋白构成,术后28天时基本检测不到。原位杂交研究显示,GFAP(+)细胞内的巢蛋白转录本主要在术后4至10天存在,28天时消失。电子显微镜显示,许多巢蛋白(+)星形胶质细胞与血管密切相关。因此,我们进一步研究了血管内皮生长因子(VEGF)的表达,VEGF是一种与血管生成相关的内皮细胞有丝分裂原。巢蛋白在一些星形胶质细胞中与VEGF共定位(7%),但与VEGF flt-1受体共定位更显著(25%)。早期星形胶质细胞活化可能涉及几种不同的IF成分,可能还有一个独特的星形胶质细胞群体,在损伤部位附近表现出快速、短暂的巢蛋白表达。手术附近受影响的星形胶质细胞中巢蛋白IF表型的表达可能表明其向未成熟表型的逆转,这种表型可能对损伤后随之而来的缺氧不太敏感。由于众所周知,损伤的星形胶质细胞会表达许多生物活性化合物,这种早期发育调控蛋白的短暂重新表达可能是诸如VEGF等生长因子释放的标志。
