Human osteocalcin (OC) undergoes reversible, vitamin K-dependent gamma-carboxylation at three glutamic acid residues, modulating its release from bones and its hormonal roles. A complete understanding of OC roles and structure-activity relationships is still lacking, as only uncarboxylated and few differently carboxylated variants have been considered so far. To fill this lack of knowledge, a comprehensive experimental and computational investigation of the structural properties and calcium-binding activity of all the OC variants is reported here. Such a comparative study indicates that the carboxylation sites are not equivalent and differently affect the OC structure and interaction with calcium, properties that are relevant for the modulation of OC functions. This study also discloses cooperative effects and provides structural and mechanistic interpretation. The disclosed peculiar features of each carboxylated proteoform strongly suggest that considering all eight possible OC variants in future studies may help rationalize some of the conflicting hypotheses observed in the literature.
Ami, D., Santambrogio, C., Vertemara, J., Bovio, F., Santisteban-Veiga, A., Sabín, J., et al. (2024). The Landscape of Osteocalcin Proteoforms Reveals Distinct Structural and Functional Roles of Its Carboxylation Sites. JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 146(40), 27755-27769 [10.1021/jacs.4c09732].
The Landscape of Osteocalcin Proteoforms Reveals Distinct Structural and Functional Roles of Its Carboxylation Sites
Ami, DilettaPrimo
;Santambrogio, Carlo;Vertemara, Jacopo;Bovio, Federica;Zampella, Giuseppe;Grandori, Rita
Co-ultimo
;Cipolla, Laura
Co-ultimo
;Natalello, Antonino
Co-ultimo
2024
Abstract
Human osteocalcin (OC) undergoes reversible, vitamin K-dependent gamma-carboxylation at three glutamic acid residues, modulating its release from bones and its hormonal roles. A complete understanding of OC roles and structure-activity relationships is still lacking, as only uncarboxylated and few differently carboxylated variants have been considered so far. To fill this lack of knowledge, a comprehensive experimental and computational investigation of the structural properties and calcium-binding activity of all the OC variants is reported here. Such a comparative study indicates that the carboxylation sites are not equivalent and differently affect the OC structure and interaction with calcium, properties that are relevant for the modulation of OC functions. This study also discloses cooperative effects and provides structural and mechanistic interpretation. The disclosed peculiar features of each carboxylated proteoform strongly suggest that considering all eight possible OC variants in future studies may help rationalize some of the conflicting hypotheses observed in the literature.
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