Crystal Structure of the Biglycan Dimer and Evidence That Dimerization Is Essential for Folding and Stability of Class I Small Leucine-rich Repeat Proteoglycans

Crystal Structure of the Biglycan Dimer and Evidence That Dimerization Is Essential for Folding and Stability of Class I Small Leucine-rich Repeat Proteoglycans

Biglycan and decorin are two closely related proteoglycans whose protein cores contain leucine-rich repeats flanked by disulfides. We have previously shown that decorin is dimeric both in solution and in crystal structures. In this study we determined whether biglycan dimerizes and investigated the...

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Veröffentlicht in:The Journal of biological chemistry 2006-05, Vol.281 (19), p.13324-13332
Hauptverfasser: Scott, Paul G., Dodd, Carole M., Bergmann, Ernst M., Sheehan, John K., Bishop, Paul N.
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Sprache:eng
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Amino Acid Sequence
Crystallization
Crystallography, X-Ray
Dimerization
Leucine - chemistry
Models, Molecular
Molecular Sequence Data
Protein Conformation
Protein Folding
Proteoglycans - chemistry
Proteoglycans - metabolism
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container_end_page 13332
container_issue 19
container_start_page 13324
container_title The Journal of biological chemistry
container_volume 281
creator Scott, Paul G.
Dodd, Carole M.
Bergmann, Ernst M.
Sheehan, John K.
Bishop, Paul N.
description Biglycan and decorin are two closely related proteoglycans whose protein cores contain leucine-rich repeats flanked by disulfides. We have previously shown that decorin is dimeric both in solution and in crystal structures. In this study we determined whether biglycan dimerizes and investigated the role of dimerization in the folding and stability of these proteoglycans. We used light scattering to show that biglycan is dimeric in solution and solved the crystal structure of the glycoprotein core of biglycan at 3.40-Å resolution. This structure reveals that biglycan dimerizes in the same way as decorin, i.e. by apposition of the concave inner surfaces of the leucine-rich repeat domains. We demonstrate that low concentrations of guanidinium chloride denature biglycan and decorin but that the denaturation is completely reversible following removal of the guanidinium chloride, as assessed by circular dichroism spectroscopy. Furthermore, the rate of refolding is dependent on protein concentration, demonstrating that it is not a unimolecular process. Upon heating, decorin shows a single structural transition at a Tm of 45-46 °C but refolds completely upon cooling to 25 °C. This property of decorin enabled us to show both by calorimetry and light scattering that dimer to monomer transition coincided with unfolding and monomer to dimer transition coincided with refolding; thus these processes are inextricably linked. We further conclude that folded monomeric biglycan or decorin cannot exist in solution. This implies novel interrelated functions for the parallel β sheet faces of these leucine-rich repeat proteoglycans, including dimerization and stabilization of protein folding.
doi_str_mv 10.1074/jbc.M513470200
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Upon heating, decorin shows a single structural transition at a Tm of 45-46 °C but refolds completely upon cooling to 25 °C. This property of decorin enabled us to show both by calorimetry and light scattering that dimer to monomer transition coincided with unfolding and monomer to dimer transition coincided with refolding; thus these processes are inextricably linked. We further conclude that folded monomeric biglycan or decorin cannot exist in solution. 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subjects Amino Acid Sequence
Crystallization
Crystallography, X-Ray
Dimerization
Leucine - chemistry
Models, Molecular
Molecular Sequence Data
Protein Conformation
Protein Folding
Proteoglycans - chemistry
Proteoglycans - metabolism
title Crystal Structure of the Biglycan Dimer and Evidence That Dimerization Is Essential for Folding and Stability of Class I Small Leucine-rich Repeat Proteoglycans
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