Jester James V, Budge Abhijit, Fisher Steven, Huang Jiying
Department of Ophthalmology, University of California at Irvine, Irvine, California 92868, USA.
Invest Ophthalmol Vis Sci. 2005 Jul;46(7):2369-78. doi: 10.1167/iovs.04-1225.
Previous studies suggest that corneal haze after injury involves changes in the light-scattering properties of keratocytes that are possibly linked to the abundant expression of water-soluble proteins. The purpose of this study was to determine the protein expression pattern of keratocytes from different species and different cultured rabbit keratocyte phenotypes and to assess differences in light-scattering in vitro.
Water-soluble proteins were isolated from corneal epithelial cells and keratocytes of several species, including human (Hu), mouse (Mo), rabbit (Ra), chicken (Ch), and pig (P) and different cultured rabbit keratocyte phenotypes. Proteins were then characterized by SDS-PAGE, tryptic peptide sequence analysis, and Western blot analysis. Light-scattering and actin organization from cultured cells were determined with confocal reflectance and fluorescence microscopy, respectively.
Protein expression patterns varied substantially between species and cell types, with five new abundantly expressed proteins identified including, LDH (Ra, Ch), G3PDH (Hu, Ch), pyruvate kinase (Ch), Annexin II (Ch), and protein disulfide isomerase (Ch). Different rabbit keratocyte phenotypes also showed different levels of expression of ALDH1A1 and TKT, with myofibroblasts showing the greatest reduction. Myofibroblasts showed significantly greater (P < 0.05) light-scattering but also showed the greatest organization of actin filaments.
Abundant protein expression is a characteristic feature of corneal keratocytes that is lost when cells are phenotypically modulated in culture. Greater light-scattering by myofibroblasts also provides support for a link between cellular transparency and haze after injury that is possibly related to loss of protein expression or development of prominent actin filament bundles.
先前的研究表明,损伤后的角膜混浊涉及角膜细胞光散射特性的变化,这可能与水溶性蛋白质的大量表达有关。本研究的目的是确定不同物种和不同培养的兔角膜细胞表型的角膜细胞的蛋白质表达模式,并评估体外光散射的差异。
从包括人(Hu)、小鼠(Mo)、兔(Ra)、鸡(Ch)和猪(P)在内的几种物种的角膜上皮细胞和角膜细胞以及不同培养的兔角膜细胞表型中分离出水溶性蛋白质。然后通过SDS-PAGE、胰蛋白酶肽序列分析和蛋白质印迹分析对蛋白质进行表征。分别用共聚焦反射和荧光显微镜测定培养细胞的光散射和肌动蛋白组织。
物种和细胞类型之间的蛋白质表达模式有很大差异,鉴定出五种新的大量表达的蛋白质,包括乳酸脱氢酶(Ra、Ch)、甘油醛-3-磷酸脱氢酶(Hu、Ch)、丙酮酸激酶(Ch)、膜联蛋白II(Ch)和蛋白质二硫键异构酶(Ch)。不同的兔角膜细胞表型也显示出醛脱氢酶1A1(ALDH1A1)和转酮醇酶(TKT)的不同表达水平,成肌纤维细胞的表达降低最为明显。成肌纤维细胞显示出明显更大(P<0.05)的光散射,但也显示出肌动蛋白丝的最大组织化。
丰富的蛋白质表达是角膜角膜细胞的一个特征,当细胞在培养中进行表型调节时会丧失。成肌纤维细胞更大的光散射也为损伤后细胞透明度与混浊之间的联系提供了支持,这可能与蛋白质表达的丧失或突出的肌动蛋白丝束的形成有关。