Darren Wragg scite author profile

The inhibition of water and glycerol permeation via human aquaglyceroporin-3 (AQP3) by gold(iii) complexes has been studied by stopped-flow spectroscopy and, for the first time, its mechanism has been described using molecular dynamics (MD), combined with density functional theory (DFT) and electrochemical studies. The obtained MD results showed that the most effective gold-based inhibitor, anchored to Cys40 in AQP3, is able to induce shrinkage of pores preventing glycerol and water permeation. Moreover, the good correlation between the affinity of the Au(iii) complex to Cys binding and AQP3 inhibition effects was highlighted, while no influence of the different oxidative character of the complexes could be observed.

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On the Mechanism of Gold/NHC Compounds Binding to DNA G‐Quadruplexes: Combined Metadynamics and Biophysical Methods

Wragg

Almeida

Bonsignore

et al. 2018

Angew Chem Int Ed

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The binding modes and free-energy landscape of two Au /N-heterocyclic carbene complexes interacting with G-quadruplexes, namely a human telomeric (hTelo) and a promoter sequence (C-KIT1), are studied here for the first time by metadynamics. The theoretical results are validated by FRET DNA melting assays and provide an accurate estimate of the absolute gold complex/DNA binding free energy. This advanced in silico approach is valuable to achieve rational drug design of selective G4 binders.

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Bioconjugate Supramolecular Pd²⁺ Metallacages Penetrate the Blood Brain Barrier In Vitro and In Vivo

et al. 2021

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The biomedical application of discrete supramolecular metal-based structures, specifically self-assembled metallacages, is still an emergent field of study. Capitalizing on the knowledge gained in recent years on the development of 3-dimensional (3D) metallacages as novel drug delivery systems and theranostic agents, we explore here the possibility to target [Pd2L4]4+ cages (L = 3,5-bis(3-ethynylpyridine)phenyl ligand) to the brain. In detail, a new water-soluble homoleptic cage (C PepH3 ) tethered to a blood brain barrier (BBB)-translocating peptide was synthesized by a combination of solid-phase peptide synthesis (SPPS) and self-assembly procedures. The cage translocation efficacy was assessed by inductively coupled mass spectrometry (ICP-MS) in a BBB cellular model in vitro. Biodistribution studies of the radiolabeled cage [[99mTcO4]− ⊂ C PepH3 ] in the CD1 mice model demonstrate its brain penetration properties in vivo. Further DFT studies were conducted to model the structure of the [[99mTcO4]− ⊂ cage] complex. Moreover, the encapsulation capabilities and stability of the cage were investigated using the [ReO4]− anion, the “cold” analogue of [99mTcO4]−, by 1H NMR spectroscopy. Overall, our study constitutes another proof-of-concept of the unique potential of supramolecular coordination complexes for modifying the physiochemical and biodistribution properties of diagnostic species.

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Molecular Basis of Aquaporin-7 Permeability Regulation by pH

Mósca

Almeida

Wragg

et al. 2018

Cells

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The aquaglyceroporin AQP7, a family member of aquaporin membrane channels, facilitates the permeation of water and glycerol through cell membranes and is crucial for body lipid and energy homeostasis. Regulation of glycerol permeability via AQP7 is considered a promising therapeutic strategy towards fat-related metabolic complications. Here, we used a yeast aqy-null strain for heterologous expression and functional analysis of human AQP7 and investigated its regulation by pH. Using a combination of in vitro and in silico approaches, we found that AQP7 changes from fully permeable to virtually closed at acidic pH, and that Tyr135 and His165 facing the extracellular environment are crucial residues for channel permeability. Moreover, instead of reducing the pore size, the protonation of key residues changes AQP7’s protein surface electrostatic charges, which, in turn, may decrease glycerol’s binding affinity to the pore, resulting in decreased permeability. In addition, since some pH-sensitive residues are located at the monomer-monomer interface, decreased permeability may result from cooperativity between AQP7’s monomers. Considering the importance of glycerol permeation via AQP7 in multiple pathophysiological conditions, this mechanism of hAQP7 pH-regulation may help the design of selective modulators targeting aquaglyceroporin-related disorders.

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Unveiling the Mechanisms of Aquaglyceroporin‐3 Water and Glycerol Permeation by Metadynamics

Wragg

Almeida

Casini

et al. 2019

Chemistry A European J

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Darren Wragg

The mechanism of aquaporin inhibition by gold compounds elucidated by biophysical and computational methods

On the Mechanism of Gold/NHC Compounds Binding to DNA G‐Quadruplexes: Combined Metadynamics and Biophysical Methods

Bioconjugate Supramolecular Pd²⁺ Metallacages Penetrate the Blood Brain Barrier In Vitro and In Vivo

Molecular Basis of Aquaporin-7 Permeability Regulation by pH

Unveiling the Mechanisms of Aquaglyceroporin‐3 Water and Glycerol Permeation by Metadynamics

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Darren Wragg

The mechanism of aquaporin inhibition by gold compounds elucidated by biophysical and computational methods

On the Mechanism of Gold/NHC Compounds Binding to DNA G‐Quadruplexes: Combined Metadynamics and Biophysical Methods

Bioconjugate Supramolecular Pd2+ Metallacages Penetrate the Blood Brain Barrier In Vitro and In Vivo

Molecular Basis of Aquaporin-7 Permeability Regulation by pH

Unveiling the Mechanisms of Aquaglyceroporin‐3 Water and Glycerol Permeation by Metadynamics

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Bioconjugate Supramolecular Pd²⁺ Metallacages Penetrate the Blood Brain Barrier In Vitro and In Vivo