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Influence of ligand binding on structure and thermostability of human [alpha]1-acid glycoprotein
Ligand binding of neutral progesterone, basic propranolol, and acidic warfarin to human [alpha]1-acid glycoprotein (AGP) was investigated by Raman spectroscopy. The binding itself is characterized by a uniform conformational shift in which a tryptophan residue is involved. Slight differences corresp...
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| Published in: | Journal of molecular recognition 2016-02, Vol.29 (2), p.70 |
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| container_title | Journal of molecular recognition |
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| creator | Kopecky, Vladimír Ettrich, Rudiger Pazderka, Tomás Hofbauerova, Katerina eha, David Baumruk, Vladimír |
| description | Ligand binding of neutral progesterone, basic propranolol, and acidic warfarin to human [alpha]1-acid glycoprotein (AGP) was investigated by Raman spectroscopy. The binding itself is characterized by a uniform conformational shift in which a tryptophan residue is involved. Slight differences corresponding to different contacts of the individual ligands inside the [beta]-barrel are described. Results are compared with in silico ligand docking into the available crystal structure of deglycosylated AGP using quantum/molecular mechanics. Calculated binding energies are -18.2, -14.5, and -11.5kcal/mol for warfarin, propranolol, and progesterone, respectively. These calculations are consistent with Raman difference spectroscopy; nevertheless, minor discrepancies in the precise positions of the ligands point to structural differences between deglycosylated and native AGP. Thermal dynamics of AGP with/without bounded warfarin was followed by Raman spectroscopy in a temperature range of 10-95°C and analyzed by principal component analysis. With increasing temperature, a slight decrease of [alpha]-helical content is observed that coincides with an increase in [beta]-sheet content. Above 45°C, also [beta]-strands tend to unfold, and the observed decrease in [beta]-sheet coincides with an increase of [beta]-turns accompanied by a conformational shift of the nearby disulfide bridge from high-energy trans-gauche-trans to more relaxed gauche-gauche-trans. This major rearrangement in the vicinity of the bridge is not only characterized by unfolding of the [beta]-sheet but also by subsequent ligand release. Hereby, ligand binding alters the protein dynamics, and the more rigid protein-ligand complex shows an improved thermal stability, a finding that contributes to the reported chaperone-like function of AGP. Copyright © 2015 John Wiley & Sons, Ltd. |
| doi_str_mv | 10.1002/jmr.2496 |
| format | article |
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The binding itself is characterized by a uniform conformational shift in which a tryptophan residue is involved. Slight differences corresponding to different contacts of the individual ligands inside the [beta]-barrel are described. Results are compared with in silico ligand docking into the available crystal structure of deglycosylated AGP using quantum/molecular mechanics. Calculated binding energies are -18.2, -14.5, and -11.5kcal/mol for warfarin, propranolol, and progesterone, respectively. These calculations are consistent with Raman difference spectroscopy; nevertheless, minor discrepancies in the precise positions of the ligands point to structural differences between deglycosylated and native AGP. Thermal dynamics of AGP with/without bounded warfarin was followed by Raman spectroscopy in a temperature range of 10-95°C and analyzed by principal component analysis. With increasing temperature, a slight decrease of [alpha]-helical content is observed that coincides with an increase in [beta]-sheet content. Above 45°C, also [beta]-strands tend to unfold, and the observed decrease in [beta]-sheet coincides with an increase of [beta]-turns accompanied by a conformational shift of the nearby disulfide bridge from high-energy trans-gauche-trans to more relaxed gauche-gauche-trans. This major rearrangement in the vicinity of the bridge is not only characterized by unfolding of the [beta]-sheet but also by subsequent ligand release. Hereby, ligand binding alters the protein dynamics, and the more rigid protein-ligand complex shows an improved thermal stability, a finding that contributes to the reported chaperone-like function of AGP. 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With increasing temperature, a slight decrease of [alpha]-helical content is observed that coincides with an increase in [beta]-sheet content. Above 45°C, also [beta]-strands tend to unfold, and the observed decrease in [beta]-sheet coincides with an increase of [beta]-turns accompanied by a conformational shift of the nearby disulfide bridge from high-energy trans-gauche-trans to more relaxed gauche-gauche-trans. This major rearrangement in the vicinity of the bridge is not only characterized by unfolding of the [beta]-sheet but also by subsequent ligand release. Hereby, ligand binding alters the protein dynamics, and the more rigid protein-ligand complex shows an improved thermal stability, a finding that contributes to the reported chaperone-like function of AGP. 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| title | Influence of ligand binding on structure and thermostability of human [alpha]1-acid glycoprotein |
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