McAllister-Lucas L M, Haik T L, Colbran J L, Sonnenburg W K, Seger D, Turko I V, Beavo J A, Francis S H, Corbin J D
Department of Molecular Physiology and Biophysics, Vanderbilt University School of Medicine, Nashville, Tennessee 37232-0165, USA.
J Biol Chem. 1995 Dec 22;270(51):30671-9. doi: 10.1074/jbc.270.51.30671.
The amino acid sequences of all known cGMP-binding phosphodiesterases (PDEs) contain internally homologous repeats (a and b) that are 80-90 residues in length and are arranged in tandem within the putative cGMP-binding domains. In the bovine lung cGMP-binding, cGMP-specific PDE (cGB-PDE or PDE5A), these repeats span residues 228-311 (a) and 410-500 (b). An aspartic acid (residue 289 or 478) that is invariant in repeats a and b of all known cGMP-binding PDEs was changed to alanine by site-directed mutagenesis of cGB-PDE, and wild type (WT) and mutant cGB-PDEs were expressed in COS-7 cells. Purified bovine lung cGB-PDE (native) and WT cGB-PDE displayed identical cGMP-binding kinetics, with approximately 1.8 microM cGMP required for half-maximal saturation. The D289A mutant showed decreased affinity for cGMP (Kd > 10 microM) and the D478A mutant showed increased affinity for cGMP (Kd approximately 0.5 microM) as compared to WT and native cGB-PDE. WT and native cGB-PDE displayed an identical curvilinear profile of cGMP dissociation which was consistent with the presence of distinct slowly dissociating (koff = 0.26 h-1) and rapidly dissociating (koff = 1.00 h-1) sites of cGMP binding. In contrast, the D289A mutant displayed a single koff = 1.24 h-1, which was similar to the calculated koff for the fast site of WT and native cGB-PDE, and the D478A mutant displayed a single koff = 0.29 h-1, which was similar to that calculated for the slow site of WT and native cGB-PDE. These results were consistent with the loss of a slow cGMP-binding site in repeat a of the D289A mutant cGB-PDE, and the loss of a fast site in repeat b of the D478A mutant, suggesting that cGB-PDE possesses two distinct cGMP-binding sites located at repeats a and b, with the invariant aspartic acid being crucial for interaction with cGMP at each site.
所有已知的环磷酸鸟苷(cGMP)结合磷酸二酯酶(PDEs)的氨基酸序列都包含内部同源重复序列(a和b),其长度为80 - 90个残基,并在假定的cGMP结合域内串联排列。在牛肺cGMP结合的、cGMP特异性PDE(cGB - PDE或PDE5A)中,这些重复序列跨越残基228 - 311(a)和410 - 500(b)。通过对cGB - PDE进行定点诱变,将所有已知cGMP结合PDE的重复序列a和b中不变的天冬氨酸(残基289或478)替换为丙氨酸,并在COS - 7细胞中表达野生型(WT)和突变型cGB - PDE。纯化的牛肺cGB - PDE(天然型)和WT cGB - PDE表现出相同的cGMP结合动力学,半最大饱和度所需的cGMP约为1.8 microM。与WT和天然cGB - PDE相比,D289A突变体对cGMP的亲和力降低(Kd > 10 microM),而D478A突变体对cGMP的亲和力增加(Kd约为0.5 microM)。WT和天然cGB - PDE表现出相同的cGMP解离曲线,这与存在不同的缓慢解离(koff = 0.26 h-1)和快速解离(koff = 1.00 h-1)的cGMP结合位点一致。相比之下D289A突变体表现出单一的koff = 1.24 h-1,这与WT和天然cGB - PDE快速结合位点计算得到的koff相似;D478A突变体表现出单一的koff = 0.29 h-1,这与WT和天然cGB - PDE缓慢结合位点计算得到的koff相似。这些结果与D289A突变体cGB - PDE重复序列a中缓慢cGMP结合位点的丧失以及D478A突变体重复序列b中快速结合位点的丧失一致,表明cGB - PDE在重复序列a和b处拥有两个不同的cGMP结合位点,不变的天冬氨酸对于每个位点与cGMP的相互作用至关重要。
