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Thiosemicarbazone Derivatives as Inhibitors of Amyloid-β Aggregation: Effect of Metal Coordination

Ana I. Matesanz, Ana B. Caballero, C. Moreno Lorenzo, Alba Espargaró, Raimon Sabaté, Adoración G. Quiroga, Patrick Gámez

2020Inorganic Chemistry32 citationsDOI

Abstract

Three thiosemicarbazone derivatives, namely 4-(dimethylamino)benzaldehyde 4,4-dimethylthiosemicarbazone (HL1), 4-(dimethylamino)benzaldehyde thiosemicarbazone (HL2), and 4-(dimethylamino)benzaldehyde 4-methylthiosemicarbazone (HL3), have been synthesized and characterized. The three palladium(II) complexes 1–3 were prepared respectively from HL1, HL2, and HL3. The crystal structures of two coordination compounds, namely Pd(L2)2 (2) and Pd(L3)2 (3), were obtained, which showed the expected square-planar environment for the metal centers. The ligand HL3 and the Pd(II) complexes 1–3, which are stable in buffered solutions containing up to 5% DMSO, exhibit remarkable inhibitory properties against the aggregation of amyloid-β, reducing the formation of fibrils. HL1, HL3, 2, and 3 display IC50 values (i.e., the concentrations required to reduce Aβ fibrillation by 50%) below 1 μM, lower that of the reference compound catechin (IC50 = 2.8 μM). Finally, in cellulo studies with E. coli cells revealed that the palladium(II) compounds are significantly more efficient than the free ligands in inhibiting Aβ aggregation inside bacterial inclusion bodies, thus illustrating a beneficial effect of metal coordination.

Topics & Concepts

ChemistrySemicarbazoneBenzaldehydePalladiumLigand (biochemistry)MetalIC50Medicinal chemistryStereochemistryOrganic chemistryIn vitroCatalysisBiochemistryReceptorAlzheimer's disease research and treatmentsDrug Transport and Resistance MechanismsTrace Elements in Health