Kohda D, Inagaki F
Department of Molecular Physiology, Tokyo Metropolitan Institute of Medical Science, Japan.
Biochemistry. 1992 Dec 1;31(47):11928-39. doi: 10.1021/bi00162a036.
The three-dimensional structures of epidermal growth factors (EGF) previously reported were all in acidic solutions (pH 2.0-3.2), at which pHs EGF cannot bind to the receptor. Here we studied the structure of mouse EGF at pH 6.8, where EGF is physiologically active, and compared it with the structure at pH 2.0 by CD and NMR. From pH dependence of CD spectra and a comparison between the chemical shifts of the proton resonances at pH 6.8 and 2.0, the conformations at two pHs were found to be nearly identical except for the C-terminal tail region. The three-dimensional structures at pH 6.8 and 2.0 were determined independently by a combination of two-dimensional 1H NMR and stimulated annealing calculations using the program XPLOR. The calculations were based on 261 distance constraints at pH 6.8 and 355 distance and 24 torsion angle constraints at pH 2.0. The conformational difference of the C-terminal domain (residues 33-50) was detected between the two structures, which were supported by CD and the chemical shift comparison. The positions of the side chains of Leu47, Arg48, Trp49, and Trp50 are changed probably by the effect of the deprotonation of Asp46. Considering the fact that Leu47 is essential in EGF binding to the receptor, this conformational difference may be important in receptor recognition.
先前报道的表皮生长因子(EGF)的三维结构均处于酸性溶液(pH 2.0 - 3.2)中,在此pH值下EGF无法与受体结合。在此,我们研究了处于生理活性pH 6.8的小鼠EGF的结构,并通过圆二色光谱(CD)和核磁共振(NMR)将其与pH 2.0时的结构进行比较。从CD光谱的pH依赖性以及pH 6.8和2.0时质子共振化学位移的比较来看,除了C末端尾部区域外,两个pH值下的构象几乎相同。通过二维¹H NMR与使用XPLOR程序的模拟退火计算相结合的方法,分别确定了pH 6.8和2.0时的三维结构。计算基于pH 6.8时的261个距离约束以及pH 2.0时的355个距离和24个扭转角约束。在两种结构之间检测到了C末端结构域(残基33 - 50)的构象差异,这得到了CD和化学位移比较的支持。Leu47、Arg48、Trp49和Trp50侧链的位置可能因Asp46去质子化的影响而发生变化。鉴于Leu47在EGF与受体结合中至关重要,这种构象差异可能在受体识别中具有重要意义。
