Effect of intracellular loop 3 on intrinsic dynamics of human β2-adrenergic receptor

IF 2.222 Q3 Biochemistry, Genetics and Molecular Biology BMC Structural Biology Pub Date : 2013-11-09 DOI:10.1186/1472-6807-13-29
Ozer Ozcan, Arzu Uyar, Pemra Doruker, Ebru Demet Akten
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引用次数: 24

Abstract

To understand the effect of the long intracellular loop 3 (ICL3) on the intrinsic dynamics of human β2-adrenergic receptor, molecular dynamics (MD) simulations were performed on two different models, both of which were based on the inactive crystal structure in complex with carazolol (after removal of carazolol and T4-lysozyme). In the so-called loop model, the ICL3 region that is missing in available crystal structures was modeled as an unstructured loop of 32-residues length, whereas in the clipped model, the two open ends were covalently bonded to each other. The latter model without ICL3 was taken as a reference, which has also been commonly used in recent computational studies. Each model was embedded into POPC bilayer membrane with explicit water and subjected to a 1 μs molecular dynamics (MD) simulation at 310?K.

After around 600?ns, the loop model started a transition to a “very inactive” conformation, which is characterized by a further movement of the intracellular half of transmembrane helix 6 (TM6) towards the receptor core, and a close packing of ICL3 underneath the membrane completely blocking the G-protein’s binding site. Concurrently, the binding site at the extracellular part of the receptor expanded slightly with the Ser207-Asp113 distance increasing to 18?? from 11??, which was further elaborated by docking studies.

The essential dynamics analysis indicated a strong coupling between the extracellular and intracellular parts of the intact receptor, implicating a functional relevance for allosteric regulation. In contrast, no such transition to the “very inactive” state, nor any structural correlation, was observed in the clipped model without ICL3. Furthermore, elastic network analysis using different conformers for the loop model indicated a consistent picture on the specific ICL3 conformational change being driven by global modes.

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细胞内环3对人β2-肾上腺素能受体内在动力学的影响
为了了解细胞内长环3 (ICL3)对人β2-肾上腺素能受体内在动力学的影响,在两种不同的模型上进行了分子动力学(MD)模拟,这两种模型都是基于与卡拉唑尔配合物(在卡拉唑尔和t4溶菌酶去除后)的失活晶体结构。在所谓的环模型中,在现有晶体结构中缺失的ICL3区域被建模为32个残基长度的非结构化环,而在剪切模型中,两个开放端彼此共价结合。参考后一种不含ICL3的模型,这种模型在最近的计算研究中也被广泛使用。将每个模型包埋在带有显水的POPC双层膜中,在310℃下进行1 μs分子动力学(MD)模拟。在600左右之后?1秒后,环模型开始过渡到“非常不活跃”的构象,其特征是胞内一半的跨膜螺旋6 (TM6)进一步向受体核心移动,并且膜下ICL3的紧密包装完全阻断了g蛋白的结合位点。同时,受体胞外部分的结合位点随着Ser207-Asp113的距离增加到18?从11 ? ?,通过对接研究进一步细化。基本动力学分析表明,完整受体的细胞外和细胞内部分之间存在强耦合,暗示了变构调节的功能相关性。相比之下,在没有ICL3的剪切模型中,没有观察到这种向“非常不活跃”状态的转变,也没有观察到任何结构相关性。此外,使用不同构象的弹性网络分析表明,ICL3的构象变化是由全局模式驱动的。
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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%
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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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