Nadia Freato scite author profile

Nadia Freato

4Publications

52Citation Statements Received

271Citation Statements Given

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Sanquin, Advanced Neural Dynamics (United States)

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Factor VIII–driven changes in activated factor IX explored by hydrogen-deuterium exchange mass spectrometry

Freato

Ebberink

Galen

et al. 2020

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The assembly of the enzyme activated Factor IX (FIXa) with its cofactor, activated Factor VIII (FVIIIa) is a crucial event in the coagulation cascade. The absence or dysfunction of either enzyme or cofactor severely compromises hemostasis, and causes hemophilia. FIXa is a notoriously inefficient enzyme, and needs FVIIIa to drive its hemostatic potential, by a mechanism that has remained largely elusive to date. In this study we employed Hydrogen-Deuterium eXchange-Mass Spectrometry (HDX-MS) to investigate how FIXa responds to assembly with FVIIIa in presence of phospholipids. This revealed a complex pattern of changes that partially overlaps with those that occur upon occupation of the substrate-binding site by an active site-directed inhibitor. Among the changes driven by both cofactor and substrate, HDX-MS highlighted several surface loops that have been implicated in allosteric networks in related coagulation enzymes. Inspection of FVIIIa-specific changes indicated that three helices are involved in FIXa-FVIIIa assembly. These are part of a basic interface that is also known as Exosite II. Mutagenesis of basic residues herein, followed by functional studies, indeed identified this interface as an extended FVIIIa-interactive patch. HDX-MS was also applied to recombinant FIXa variants that are associated with severe hemophilia B. This revealed that single amino acid substitutions can silence the extended network of FVIIIa-driven allosteric changes. We conclude that HDX-MS has the potential to visualize the functional impact of disease-associated mutations on enzyme-cofactor complexes in the hemostatic system.

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Probing activation‐driven changes in coagulation factor IX by mass spectrometry

Freato

Alphen

Boon-Spijker

et al. 2021

Journal of Thrombosis and Haemostasis

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Unique surface‐exposed hydrophobic residues in the C1 domain of factor VIII contribute to cofactor function and von Willebrand factor binding

Przeradzka

Freato

Boon-Spijker

et al. 2020

Journal of Thrombosis and Haemostasis

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Background:The identity of the amino acid regions of factor VIII (FVIII) that contribute to factor IXa (FIXa) and von Willebrand factor (VWF) binding has not been fully resolved. Previously, we observed that replacing the FVIII C1 domain for the one of factor V (FV) markedly reduces VWF binding and cofactor function. Compared to the FV C1 domain, this implies that the FVIII C1 domain comprises unique surfaceexposed elements involved in VWF and FIXa interaction.Objective: The aim of this study is to identify residues in the FVIII C1 domain that contribute to VWF and FIXa binding. Methods:Structures and primary sequences of FVIII and FV were compared to identify surface-exposed residues unique to the FVIII C1 domain. The identified residues were replaced with alanine residues to identify their role in FIXa and VWF interaction. This role was assessed employing surface plasmon resonance analysis studies and enzyme kinetic assays.Results: Five surface-exposed hydrophobic residues unique to the FVIII C1 domain, ie, F2035, F2068, F2127, V2130, I2139 were identified. Functional analysis indicated that residues F2068, V2130, and especially F2127 contribute to VWF and/or FIXa interaction. Substitution into alanine of the also surface-exposed V2125, which is spatially next to F2127, affected only VWF binding. Conclusion:The surface-exposed hydrophobic residues in C1 domain contribute to cofactor function and VWF binding. These findings provide novel information on the fundamental role of the C1 domain in FVIII life cycle. K E Y W O R D Sfactor VIII, factor IXa, kinetics, surface plasmon resonance, Von Willebrand factor | 365 PRZERADZKA Et Al.

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Hydrogen–Deuterium Exchange Mass Spectrometry Identifies Activated Factor IX-Induced molecular Changes in Activated Factor VIII

et al. 2020

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Hydrogen–deuterium exchange mass spectrometry (HDX-MS) was employed to gain insight into the changes in factor VIII (FVIII) that occur upon its activation and assembly with activated factor IX (FIXa) on phospholipid membranes. HDX-MS analysis of thrombin-activated FVIII (FVIIIa) revealed a marked increase in deuterium incorporation of amino acid residues along the A1–A2 and A2–A3 interface. Rapid dissociation of the A2 domain from FVIIIa can explain this observation. In the presence of FIXa, enhanced deuterium incorporation at the interface of FVIIIa was similar to that of FVIII. This is compatible with the previous finding that FIXa contributes to A2 domain retention in FVIIIa. A2 domain region Leu631-Tyr637, which is not part of the interface between the A domains, also showed a marked increase in deuterium incorporation in FVIIIa compared with FVIII. Deuterium uptake of this region was decreased in the presence of FIXa beyond that observed in FVIII. This implies that FIXa alters the conformation or directly interacts with this region in FVIIIa. Replacement of Val634 in FVIII by alanine using site-directed mutagenesis almost completely impaired the ability of the activated cofactor to enhance the activity of FIXa. Surface plasmon resonance analysis revealed that the rates of A2 domain dissociation from FVIIIa and FVIIIa-Val634Ala were indistinguishable. HDX-MS analysis showed, however, that FIXa was unable to retain the A2 domain in FVIIIa-Val634Ala. The combined results of this study suggest that the local structure of Leu631-Tyr637 is altered by FIXa and that this region contributes to the cofactor function of FVIII.

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Nadia Freato

Factor VIII–driven changes in activated factor IX explored by hydrogen-deuterium exchange mass spectrometry

Probing activation‐driven changes in coagulation factor IX by mass spectrometry

Unique surface‐exposed hydrophobic residues in the C1 domain of factor VIII contribute to cofactor function and von Willebrand factor binding

Hydrogen–Deuterium Exchange Mass Spectrometry Identifies Activated Factor IX-Induced molecular Changes in Activated Factor VIII

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