人β1AR信号复合物与mini-Gs的动态相互作用。

IF 4.5 2区生物学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY

Journal of Molecular Biology Pub Date : 2025-08-30 DOI:10.1016/j.jmb.2025.169411

Philip Rößler, Marco M Ruckstuhl, Arnelle Löbbert, Timo T Stühlinger, Ching-Ju Tsai, Gebhard F X Schertler, Alvar D Gossert

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引用次数: 0

摘要

通过对来自土耳其的热稳定β1肾上腺素能受体（β1AR）的生物物理研究，人们对gpcr的机制有了丰富的见解。在这里，我们研究了在药理学上更相关的人类β1AR的稳定变体，并初步了解了G蛋白替代品mini-Gs的活性信号复合物。与鸟类受体相比，人β1AR结构具有更大的构象灵活性，更容易在非活性和预活性状态之间转换；然而，向完全主动、开放状态的转变仍然缓慢。有趣的是，相比之下，结合的mini-Gs蛋白在三元复合物中表现出更快的动力学。对于信号复合体中的受体，我们揭示了细胞内环2和跨膜螺旋1的细胞外端至少两种相互转换状态。此外，我们证明细胞内环3有助于mini-Gs结合。这种人类β1AR结构为原子水平上的生物物理研究提供了一个有价值的平台，以理解人类受体的行为。

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Dynamic Interactions in the Human β₁AR Signalling Complex with Mini-G_s Revealed by NMR.

A wealth of insights into the mechanisms of GPCRs have been gained from biophysical studies of thermostabilized β₁ adrenergic receptors (β₁AR) from turkey. Here we investigate a stabilised variant of the pharmacologically more relevant human β₁AR and present initial insights into the active signalling complex with the G protein surrogate mini-G_s. Compared to the avian receptor, the human β₁AR construct exhibits greater conformational flexibility and more readily transitions between inactive and pre-active states; however, the transition to the fully active, open state remains slow. Interestingly, in contrast, the bound mini-G_s protein exhibits much faster dynamics in the ternary complex. For the receptor in the signalling complex, we reveal at least two interconverting states of intracellular loop 2 and the extracellular end of transmembrane helix 1. Additionally, we demonstrate that intracellular loop 3 contributes to mini-G_s binding. This human β₁AR construct provides a valuable platform for biophysical studies at the atomic level towards understanding the behaviour of the human receptor.

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来源期刊

Journal of Molecular Biology 生物-生化与分子生物学

CiteScore

11.30

自引率

1.80%

发文量

412

审稿时长

28 days

期刊介绍： Journal of Molecular Biology (JMB) provides high quality, comprehensive and broad coverage in all areas of molecular biology. The journal publishes original scientific research papers that provide mechanistic and functional insights and report a significant advance to the field. The journal encourages the submission of multidisciplinary studies that use complementary experimental and computational approaches to address challenging biological questions. Research areas include but are not limited to: Biomolecular interactions, signaling networks, systems biology; Cell cycle, cell growth, cell differentiation; Cell death, autophagy; Cell signaling and regulation; Chemical biology; Computational biology, in combination with experimental studies; DNA replication, repair, and recombination; Development, regenerative biology, mechanistic and functional studies of stem cells; Epigenetics, chromatin structure and function; Gene expression; Membrane processes, cell surface proteins and cell-cell interactions; Methodological advances, both experimental and theoretical, including databases; Microbiology, virology, and interactions with the host or environment; Microbiota mechanistic and functional studies; Nuclear organization; Post-translational modifications, proteomics; Processing and function of biologically important macromolecules and complexes; Molecular basis of disease; RNA processing, structure and functions of non-coding RNAs, transcription; Sorting, spatiotemporal organization, trafficking; Structural biology; Synthetic biology; Translation, protein folding, chaperones, protein degradation and quality control.