Variations in periplasmic loop interactions determine the pH-dependent activity of the hexameric urea transporter UreI from Helicobacter pylori: a molecular dynamics study

IF 2.222 Q3 Biochemistry, Genetics and Molecular Biology
Javier Cáceres-Delpiano, Jaime Teneb, Rodrigo Mansilla, Apolinaria García, Alexis Salas-Burgos
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引用次数: 4

Abstract

Helicobacter pylori is an important factor in the development of diseases such as ulcer and gastric cancer. This bacterium uses a periplasmic transporter, UreI, to deliver urea to the intracelullar space, where later it is transformed into ammonia by the cytoplasmic enzyme urease to survive the acidic condition of the human stomach. The UreI transporter presents a pH-dependent activity, where this pH-dependence remains unknown at a structural level. Althought the existance of several protonable residues in the periplasmic loops are related to the pH-dependent activity, we find interesting to have a clear view of the conformational changes involved in this phenomena through a molecular dynamic study.

Molecular dynamic simulations of the UreI transporter at three different pH conditions were performed, revealing two main pH-dependent conformations, which we present as the open and close states. We find that salt bridges between the periplasmic loops are crucial interactions that stabilize these conformations. Besides, a cooperative behaviour exists between the six subunits of the system that is necessary to fulfill the activity of this transporter.

We found different pH-dependent conformations of the urea transporter UreI from Helicobacter pylori, which are related to salt-bridge interactions in the periplasmic regions. The behaviour of every channel in the system is not independent, given the existance of a cooperative behaviour through the formation of salt-bridges between the subunits of the hexameric system. We believe that our results will be related to the generation of new eradication therapies using this transporter as an attractive target, denoting that the knowledge of the possible pH-dependent conformations adopted for this transporter are important for the development of rational drug design approximations.

Abstract Image

质周环相互作用的变化决定了幽门螺杆菌六聚体尿素转运蛋白UreI的ph依赖性活性:一项分子动力学研究
幽门螺杆菌是溃疡和胃癌等疾病发展的重要因素。这种细菌利用质周转运体UreI将尿素输送到胞内空间,然后通过胞质脲酶将其转化为氨,从而在人体胃的酸性条件下存活下来。UreI转运体表现出ph依赖性活性,其中这种ph依赖性在结构水平上仍然未知。虽然质周环中几个质子残基的存在与ph依赖性活性有关,但我们发现通过分子动力学研究清楚地了解这一现象所涉及的构象变化是很有趣的。在三种不同的pH条件下进行了UreI转运体的分子动力学模拟,揭示了两种主要的pH依赖性构象,我们将其称为打开状态和关闭状态。我们发现质周环之间的盐桥是稳定这些构象的关键相互作用。此外,系统的六个亚单位之间存在合作行为,这是完成该转运体活动所必需的。我们发现来自幽门螺杆菌的尿素转运蛋白UreI的不同ph依赖性构象,这与质周区域的盐桥相互作用有关。系统中每个通道的行为不是独立的,因为存在通过在六聚体系统的亚基之间形成盐桥的合作行为。我们相信,我们的结果将与使用这种转运蛋白作为有吸引力的靶标的新根除疗法的产生有关,这表明这种转运蛋白采用的可能的ph依赖性构象的知识对于合理药物设计近似的发展是重要的。
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来源期刊
BMC Structural Biology
BMC Structural Biology 生物-生物物理
CiteScore
3.60
自引率
0.00%
发文量
0
期刊介绍: BMC Structural Biology is an open access, peer-reviewed journal that considers articles on investigations into the structure of biological macromolecules, including solving structures, structural and functional analyses, and computational modeling.
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