Pande J, Lomakin A, Fine B, Ogun O, Sokolinski I, Benedek G
Department of Physics, Massachusetts Institute of Technology, Cambridge 02139.
Proc Natl Acad Sci U S A. 1995 Feb 14;92(4):1067-71. doi: 10.1073/pnas.92.4.1067.
Aqueous solutions of the bovine eye lens protein gamma II (or gamma B)-crystallin at neutral pH show a gradual increase in phase separation temperature, Tph, when allowed to stand for several weeks at room temperature without reducing agents. In a typical experiment, the Tph of the protein solution (218 mg/ml) increases from 2.5 +/- 1 degree C to 32.5 +/- 1 degree C after 21 days, and a new protein species, gamma IIH, is formed. The Tph of pure gamma IIH is at least 40 degrees C higher than that of pure gamma II. The average apparent hydrodynamic radius is 36 A for gamma IIH compared to 26 A for gamma II. The molecular mass of gamma IIH is approximately 41.5 kDa compared to 20 kDa for native gamma II. Therefore, gamma IIH is probably a dimer of gamma II crystallin. gamma IIH has a lower thiol content than gamma II and is not formed in the presence of dithiothreitol. We conclude that gamma IIH is a thiol oxidation product of gamma II-crystallin and is a dimer containing an intermolecular disulfide crosslink. Thus, some oxidative modifications of protein thiol groups lead to an increase in net attractive interactions between proteins. As a result, Tph increases and protein aggregates are formed. These two microscopic changes produce the increased light scattering associated with lens opacification.
在中性pH值下,牛眼晶状体蛋白γII(或γB)-晶状体蛋白的水溶液在室温下放置数周且无还原剂时,相分离温度Tph会逐渐升高。在一个典型实验中,蛋白质溶液(218 mg/ml)的Tph在21天后从2.5±1℃升高到32.5±1℃,并且形成了一种新的蛋白质物种γIIH。纯γIIH的Tph比纯γII至少高40℃。γIIH的平均表观流体力学半径为36 Å,而γII为26 Å。γIIH的分子量约为41.5 kDa,而天然γII为20 kDa。因此,γIIH可能是γII晶状体蛋白的二聚体。γIIH的硫醇含量比γII低,且在二硫苏糖醇存在下不会形成。我们得出结论,γIIH是γII-晶状体蛋白的硫醇氧化产物,是一种含有分子间二硫键交联的二聚体。因此,蛋白质硫醇基团的一些氧化修饰会导致蛋白质之间净吸引力相互作用增加。结果,Tph升高并形成蛋白质聚集体。这两个微观变化产生了与晶状体混浊相关的光散射增加。
