Krotoski D M, Domingo C, Bronner-Fraser M
J Cell Biol. 1986 Sep;103(3):1061-71. doi: 10.1083/jcb.103.3.1061.
The cell substratum attachment (CSAT) antibody recognizes a 140-kD cell surface receptor complex involved in adhesion to fibronectin (FN) and laminin (LM) (Horwitz, A., K. Duggan, R. Greggs, C. Decker, and C. Buck, 1985, J. Cell Biol., 101:2134-2144). Here, we describe the distribution of the CSAT antigen along with FN and LM in the early avian embryo. At the light microscopic level, the staining patterns for the CSAT receptor and the extracellular matrix molecules to which it binds were largely codistributed. The CSAT antigen was observed on numerous tissues during gastrulation, neurulation, and neural crest migration: for example, the surface of neural crest cells and the basal surface of epithelial tissues such as the ectoderm, neural tube, notochord, and dermomyotome. FN and LM immunoreactivity was observed in the basement membranes surrounding many of these epithelial tissues, as well as around the otic and optic vesicles. In addition, the pathways followed by cranial neural crest cells were lined with FN and LM. In the trunk region, FN and LM were observed surrounding a subpopulation of neural crest cells. However, neither molecule exhibited the selective distribution pattern necessary for a guiding role in trunk neural crest migration. The levels of CSAT, FN, and LM are dynamic in the embryo, perhaps reflecting that the balance of surface-substratum adhesions contributes to initiation, migration, and localization of some neural crest cell populations.
细胞基质附着(CSAT)抗体识别一种140-kD的细胞表面受体复合物,该复合物参与细胞与纤连蛋白(FN)和层粘连蛋白(LM)的黏附(霍维茨,A.,K. 达根,R. 格雷格斯,C. 德克尔,和C. 巴克,1985年,《细胞生物学杂志》,101:2134 - 2144)。在此,我们描述了CSAT抗原以及FN和LM在早期鸡胚中的分布情况。在光学显微镜水平,CSAT受体及其结合的细胞外基质分子的染色模式在很大程度上是共分布的。在原肠胚形成、神经胚形成和神经嵴迁移过程中,在许多组织上都观察到了CSAT抗原:例如,神经嵴细胞的表面以及上皮组织如外胚层、神经管、脊索和生皮节的基底表面。在许多这些上皮组织周围的基底膜中,以及耳泡和视泡周围,都观察到了FN和LM的免疫反应性。此外,颅神经嵴细胞所经过的路径都排列有FN和LM。在躯干区域,在一部分神经嵴细胞周围观察到了FN和LM。然而,这两种分子都没有表现出在躯干神经嵴迁移中起引导作用所必需的选择性分布模式。CSAT、FN和LM在胚胎中的水平是动态变化的,这可能反映出表面 - 基质黏附的平衡有助于一些神经嵴细胞群体的起始、迁移和定位。