McLachlan Glendon D, Cahill Sean M, Girvin Mark E, Almo Steven C
Department of Biochemistry, Albert Einstein College of Medicine, 1300 Morris Park Avenue, Bronx, New York 10461, USA.
Biochemistry. 2007 Jun 12;46(23):6931-43. doi: 10.1021/bi0602359. Epub 2007 May 19.
The acid-induced unfolding of human platelet profilin (HPP) can be minimally modeled as a three-state process. Equilibrium unfolding studies have been performed on human platelet profilin1 (HPP) and monitored by far-UV circular dichroism, tryptophan fluorescence, ANS binding, and NMR spectroscopy. Far-UV CD measurements obtained by acid titration demonstrate that HPP unfolds via a three-state mechanism (N --> I --> U), with a highly populated intermediate between pH 4 and 5. Approximately 80% of native helical secondary structural content remains at pH 4, as indicated by monitoring the CD signal at 222 nm. The stability (DeltaGH2O) of the native conformation at pH 7.0 (obtained by monitoring the change in tryptophan signal as a function of urea concentration) is 5.56 +/- 0.51 kcal mol-1; however, the DeltaGH2O for the intermediate species at pH 4 is 2.01 +/- 0.47 kcal mol-1. The calculated m-values for the pH 7.0 and pH 4.0 species were 1.64 +/- 0.15 and 1.34 +/- 0.17 kcal mol-1 M-1, respectively, which is an indication that the native and intermediate species are similarly compact. Additionally, translational diffusion measurements obtained by NMR spectroscopy and ANS binding studies are consistent with a globular and compact conformation at both pH 7.0 and 4.0. The pKa values for the two histidine (His) residues located on helix 4 of HPP were determined to be 5.6 and 5.7 pH units. These pKa values coincide with the midpoint of the far-UV CD acid titration curve and suggest that the protonation of one or both His residues may play a role in the formation of the unfolding intermediate. Stable intermediate species populate the 2D 1H-15N HSQC NMR spectra between pH 4 and 5. A number of backbone and side-chain resonances show significant perturbations relative to the native spectrum; however, considerable nativelike tertiary contacts remain. Interestingly, the residues on HPP that are significantly altered at low pH coincide with segments of the G-actin binding surface and poly-l-proline binding interface. The earlier reports that a decrease in pH below 6.0 induces structural alterations in profilin, favoring dissociation of the profilin-actin complex, corresponds with the structural alterations observed in the partially unfolded species. Our findings suggest that a novel mechanism for pH induced disruption of the profilin-G-actin complex involve a nativelike unfolding intermediate of profilin.
人血小板原肌球蛋白(HPP)的酸诱导去折叠过程可以最小化地模拟为一个三态过程。已经对人血小板原肌球蛋白1(HPP)进行了平衡去折叠研究,并通过远紫外圆二色性、色氨酸荧光、ANS结合和核磁共振光谱进行监测。通过酸滴定获得的远紫外圆二色性测量结果表明,HPP通过三态机制(N→I→U)去折叠,在pH 4到5之间有一个高度富集的中间体。通过监测222 nm处的圆二色性信号表明,在pH 4时,约80%的天然螺旋二级结构含量得以保留。pH 7.0时天然构象的稳定性(ΔGH2O,通过监测色氨酸信号随尿素浓度的变化获得)为5.56±0.51 kcal mol-1;然而,pH 4时中间体物种的ΔGH2O为2.01±0.47 kcal mol-1。pH 7.0和pH 4.0物种的计算m值分别为1.64±0.15和1.34±0.17 kcal mol-1 M-1,这表明天然物种和中间体物种同样紧密。此外,通过核磁共振光谱和ANS结合研究获得的平移扩散测量结果与pH 7.0和4.0时的球状紧密构象一致。位于HPP螺旋4上的两个组氨酸(His)残基的pKa值被确定为5.6和5.7个pH单位。这些pKa值与远紫外圆二色性酸滴定曲线的中点一致,表明一个或两个His残基的质子化可能在去折叠中间体的形成中起作用。在pH 4到5之间,稳定的中间体物种出现在二维1H-15N HSQC核磁共振光谱中。相对于天然光谱,许多主链和侧链共振显示出显著的扰动;然而,相当数量的类似天然的三级接触仍然存在。有趣的是,在低pH下显著改变的HPP上的残基与G-肌动蛋白结合表面和聚-L-脯氨酸结合界面的片段一致。早期报道称,pH低于6.0会诱导原肌球蛋白的结构改变,有利于原肌球蛋白-肌动蛋白复合物的解离,这与在部分去折叠物种中观察到的结构改变相对应。我们的研究结果表明,pH诱导原肌球蛋白-G-肌动蛋白复合物破坏的一种新机制涉及原肌球蛋白的类似天然的去折叠中间体。
