边缘链工程可防止嗜热栖热菌酰基磷酸酶中出现类似天然状态的聚集。

Edge strand engineering prevents native-like aggregation in Sulfolobus solfataricus acylphosphatase.

作者信息

de Rosa Matteo, Bemporad Francesco, Pellegrino Sara, Chiti Fabrizio, Bolognesi Martino, Ricagno Stefano

机构信息

Dipartimento di Bioscienze, Università di Milano, Italy.

出版信息

FEBS J. 2014 Sep;281(18):4072-84. doi: 10.1111/febs.12861. Epub 2014 Jun 13.

DOI:10.1111/febs.12861

PMID:24893801

Abstract

UNLABELLED

β-proteins are constantly threatened by the risk of aggregation because β-sheets are inherently structured for edge-to-edge interactions. To avoid native-like aggregation, evolution has resulted in a set of strategies that prevent intermolecular β-interactions. Acylphosphatase from Sulfolobus solfataricus (Sso AcP) represents a suitable model for the study of such a process. Under conditions promoting aggregation, Sso AcP acquires a native-like conformational state whereby an unstructured N-terminal segment interacts with the edge β-strand B4 of an adjacent Sso AcP molecule. Because B4 is poorly protected against aggregation, this interaction triggers the aggregation cascade without the need for unfolding. Recently, three single Sso AcP mutants (V84D, Y86E and V84P) were designed to engineer additional protection against aggregation in B4 and were observed to successfully impair native-like aggregation in all three variants at the expense of a lower stability. To understand the structural basis of the reduced aggregation propensity and lower stability, the crystal structures of the Sso AcP variants were determined in the present study. Structural analysis reveals that the V84D and Y86E mutations exert protection by the insertion of an edge negative charge. A conformationally less regular B4 underlies protection against aggregation in the V84P mutant. The thermodynamic basis of instability is discussed. Moreover, kinetic experiments indicate that aggregation of the three mutants is not native-like and is independent of the interaction between B4 and the unstructured N-terminal segment. The reported data rationalize previous evidence regarding Sso AcP native-like aggregation and provide a basis for the design of aggregation-free proteins.

DATABASE

The atomic coordinates and related experimental data for the Sso AcP mutants V84P, V84D, ΔN11 Y86E have been deposited in the Protein Data Bank under accession numbers 4OJ3, 4OJG and 4OJH, respectively.

STRUCTURED DIGITAL ABSTRACT

• Sso AcP and Sso AcP bind by fluorescence technology (View interaction).

摘要

未标记

β-蛋白质一直受到聚集风险的威胁，因为β-折叠本质上是为边缘到边缘相互作用而构建的。为避免类似天然状态的聚集，进化产生了一系列防止分子间β-相互作用的策略。来自嗜热栖热菌的酰基磷酸酶（Sso AcP）是研究此类过程的合适模型。在促进聚集的条件下，Sso AcP获得一种类似天然状态的构象，其中无结构的N端片段与相邻Sso AcP分子的边缘β-链B4相互作用。由于B4对聚集的保护作用较差，这种相互作用会触发聚集级联反应而无需解折叠。最近，设计了三个单一的Sso AcP突变体（V84D、Y86E和V84P），以增强对B4聚集的额外保护，并且观察到这三个变体均成功损害了类似天然状态的聚集，但代价是稳定性降低。为了解聚集倾向降低和稳定性降低的结构基础，本研究确定了Sso AcP变体的晶体结构。结构分析表明，V84D和Y86E突变通过插入边缘负电荷发挥保护作用。V84P突变体中对聚集的保护作用基于构象不太规则的B4。讨论了不稳定性的热力学基础。此外，动力学实验表明，这三个突变体的聚集并非类似天然状态，且与B4和无结构N端片段之间的相互作用无关。所报道的数据使先前关于Sso AcP类似天然状态聚集的证据合理化，并为设计无聚集蛋白提供了基础。