The complex formation between daclatasvir and gamma-CD or heptakis(2,3,6-tri-O-methyl)-beta-CD (TM-beta-CD) was studied by isothermal titration calorimetry and molecular modeling. Both techniques supported the predominant formation of a 2:1 complex in case of gamma-CD although a 1:1 complex may be formed to a much lower extend as well. In case of TM-beta-CD the stoichiometry of the complex was exclusively 1:1. Complex formation with gamma-CD did not require dissociation of daclatasvir dimer, which is present in solution, and resulted in a complex with a binding constant of 1.67·107 M-2. In contrast, formation of the weak TM-beta-CD complex (K = 371 M-1) required dissociation of the daclatasvir dimer. This is in line with the observation that the complex formation in case of gamma-CD is enthalpy-driven, while the process is entropy-driven in case of TM-beta-CD. It is concluded that the plateau observed in capillary electrophoresis is primarily based on the slow dissociation of the daclatasvir-CD complexes caused by steric constrains due to the folded terminal amino acid moieties of daclatasvir exerting a clamp effect. In case gamma-CD the thermodynamic stability might contribute to the overall slow dissociation.

Isothermal titration calorimetry and molecular modeling study of the complex formation of daclatasvir by gamma-cyclodextrin and trimethyl-beta-cyclodextrin

Paola Peluso
;
Roberto Dallocchio;Alessandro Dessì;
2023

Abstract

The complex formation between daclatasvir and gamma-CD or heptakis(2,3,6-tri-O-methyl)-beta-CD (TM-beta-CD) was studied by isothermal titration calorimetry and molecular modeling. Both techniques supported the predominant formation of a 2:1 complex in case of gamma-CD although a 1:1 complex may be formed to a much lower extend as well. In case of TM-beta-CD the stoichiometry of the complex was exclusively 1:1. Complex formation with gamma-CD did not require dissociation of daclatasvir dimer, which is present in solution, and resulted in a complex with a binding constant of 1.67·107 M-2. In contrast, formation of the weak TM-beta-CD complex (K = 371 M-1) required dissociation of the daclatasvir dimer. This is in line with the observation that the complex formation in case of gamma-CD is enthalpy-driven, while the process is entropy-driven in case of TM-beta-CD. It is concluded that the plateau observed in capillary electrophoresis is primarily based on the slow dissociation of the daclatasvir-CD complexes caused by steric constrains due to the folded terminal amino acid moieties of daclatasvir exerting a clamp effect. In case gamma-CD the thermodynamic stability might contribute to the overall slow dissociation.
2023
Istituto di Chimica Biomolecolare - ICB - Sede Secondaria Sassari
cyclodextrin complexes
complex stoichiometry
isothermal titration calorimetry
molecular dynamics simulation
Daclatasvir
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Descrizione: Isothermal titration calorimetry and molecular modeling study of the complex formation of daclatasvir by γ-cyclodextrin and trimethyl-β-cyclodextrin
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.14243/461721
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