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Cholesterol increases kinetic, energetic, and mechanical stability of the human ?2-adrenergic receptor.

ABSTRACT: The steroid cholesterol is an essential component of eukaryotic membranes, and it functionally modulates membrane proteins, including G protein-coupled receptors. To reveal insight into how cholesterol modulates G protein-coupled receptors, we have used dynamic single-molecule force spectroscopy to quantify the mechanical strength and flexibility, conformational variability, and kinetic and energetic stability of structural segments stabilizing the human ?(2)-adrenergic receptor (?(2)AR) in the absence and presence of the cholesterol analog cholesteryl hemisuccinate (CHS). CHS considerably increased the kinetic, energetic, and mechanical stability of almost every structural segment at sufficient magnitude to alter the structure and functional relationship of ?(2)AR. One exception was the structural core segment of ?(2)AR, which establishes multiple ligand binding sites, and its properties were not significantly influenced by CHS.

SUBMITTER: Zocher M 

PROVIDER: S-EPMC3528585 | biostudies-literature | 2012 Dec

REPOSITORIES: biostudies-literature

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Cholesterol increases kinetic, energetic, and mechanical stability of the human β2-adrenergic receptor.

Zocher Michael M   Zhang Cheng C   Rasmussen Søren G F SG   Kobilka Brian K BK   Müller Daniel J DJ  

Proceedings of the National Academy of Sciences of the United States of America 20121114 50

The steroid cholesterol is an essential component of eukaryotic membranes, and it functionally modulates membrane proteins, including G protein-coupled receptors. To reveal insight into how cholesterol modulates G protein-coupled receptors, we have used dynamic single-molecule force spectroscopy to quantify the mechanical strength and flexibility, conformational variability, and kinetic and energetic stability of structural segments stabilizing the human β(2)-adrenergic receptor (β(2)AR) in the  ...[more]

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