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Abstract
Human serum albumin (HSA) efficiently transports drugs in vivo: most are organic. Here, HSA binding affinity and site specificity are shown to depend on the identity of the d8 metal ion in Ni(II), Pd(II) and Pt(II) chelates of the bis(pyrrole-imine) ligand H2PrPyrr. Fluorescence quenching data for native and probe-bound HSA showed sites close to Trp-214 (subdomain IIA) are targeted. The Stern-Volmer constants, KSV, ranged from 10^4 M^(-1) to 10^5 M^(-1) while the affinity constants, Ka, ranged from 3.5 x 10^3 M^(-1) to 1 x 10^6 M^(-1) at 37 degrees Centigrade, following the order Pd(PrPyrr) > Pt(PrPyrr) > Ni(PrPyrr) > H2PrPyrr. Ligand uptake is enthalpically driven, hinging mainly on London dispersion forces. Induced CD spectra for the protein-bound ligands could be simulated by hybrid QM:MM TD-DFT methods, proving that the metal chelates neither decompose nor demetallate after uptake by HSA. Transport and delivery of the metal chelates by HSA in vivo could therefore be feasible.
Supplementary materials
Title
Supporting Information: Complexities of the interaction of Ni(II), Pd(II), and Pt(II) pyrrole-imine chelates with human serum albumin
Description
Full experimental details, supporting characterization data, spectra, and simulation results.
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Title
Atomic Cartesian coordinates - DFT simulations
Description
This .ZIP archive file contains final atomic coordinates from selected DFT simulations saved in .mol2 file format. This file format can be read by any text editor and by open-source molecular graphics applications such as Avogadro.
Note that X-ray structure data in .CIF format have been deposited with the CCDC. See Tables in the electronic supporting information PDF file for the deposit numbers.
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Title
DFT simulation data: Aqua complex enantiomers
Description
Data for two enantiomers of a chiral Pd(II) aqua complex.
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