Molecular interactions between serum albumin proteins and Keggin type polyoxometalates studied using luminescence spectroscopy

Goovaerts, Vincent; Stroobants, Karen; Absillis, Gregory; Parac‐Vogt, Tatjana N.

doi:10.1039/c3cp52848k

Cited by 75 publications

(69 citation statements)

References 61 publications

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“…This resulted in a value of 2.2 × 10 2 M −1 for the Eu-Keggin POM/HEWL complex. This value is comparable to previously obtained values of association constants for the Eu-Keggin/HSA and Eu-Keggin/BSA complexes at slightly lower pH values (pH = 7.37 and 6.62, respectively) [51], which were 1.5 × 10 2 M −1 and 2.0 × 10 3 M −1 , respectively. When compared to the reported values for the Eu-Lindqvist POM, lower association constants were obtained for the Eu-Keggin POM [26,49].…”

Section: Eu(iii) Luminescence Of Eu-keggin Pom In the Presence Of Prosupporting

confidence: 91%

“…1). This was also found in previous experiments [51]. Remarkably, q(Eu) decreases linearly when the concentration of Eu-Keggin POM is increased (Fig.…”

Section: Solution Speciation Of Eu-keggin Pomsupporting

confidence: 80%

“…As previously reported [51], metal-substituted Keggin POMs can form different complexes in solution. Factors that influence the solution speciation of these complexes are for instance the pH and ionic strength of the solution and the concentration of the POM.…”

Section: Solution Speciation Of Eu-keggin Pommentioning

confidence: 68%

“…Factors that influence the solution speciation of these complexes are for instance the pH and ionic strength of the solution and the concentration of the POM. In our previous work, the characterization of the Eu-Keggin POM in solution was performed at a fixed concentration (100 μM) in the absence of buffer (pH = 6.25) [51]. Under these conditions the formation of a 1:1 Eu-Keggin complex was observed (Fig.…”

Section: Solution Speciation Of Eu-keggin Pommentioning

confidence: 96%

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Eu(III) luminescence and tryptophan fluorescence spectroscopy as a tool for understanding interactions between hen egg white lysozyme and metal-substituted Keggin type polyoxometalates

Goovaerts

Stroobants

Absillis

et al. 2015

Journal of Inorganic Biochemistry

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The interaction between the lacunary Keggin K7PW11O39, the Eu(III)-substituted Keggin K4EuPW11O39 (Eu-Keggin) and the Ce(IV)-substituted Keggin [Me2NH2]10[Ce(PW11O39)2] (Ce-Keggin) polyoxometalates (POMs), and the proteins hen egg white lysozyme (HEWL) and the structurally homologous α-lactalbumin (α-LA) was studied by steady state and time-resolved Eu(III) luminescence and tryptophan (Trp) fluorescence spectroscopy. The excitation spectrum of Eu-Keggin at lower concentrations ([Eu-Keggin]<100 μM) is dominated by a ligand-to-metal charge transfer band (291 nm). For higher concentrations ([Eu-Keggin]>250 μM) the (5)L6←(7)F0 transition becomes the most intense peak. In the absence of protein, the number of coordinated water molecules to the Eu(III) centre of Eu-Keggin is 4, indicating a 1:1 Eu(III):POM species. In the presence of phosphate buffer this number linearly decreases from 4 to 2 upon increasing phosphate buffer concentration. Upon addition of HEWL, there are no coordinated water molecules, suggesting interaction between Eu-Keggin and the protein surface. In addition, this interaction results in a more than threefold increase of the hypersensitive (5)D0→(7)F2 transition for the Eu-Keggin/HEWL mixture. The calculated association constant amounted to 2.2×10(2) M(-1) for the Eu-Keggin/HEWL complex. Tryptophan fluorescence quenching studies were performed and the quenching constants were calculated to be 9.1×10(4) M(-1), 4×10(4) M(-1) and 4.1×10(5) M(-1) for the lacunary Keggin/HEWL, the Eu-Keggin/HEWL and the Ce-Keggin/HEWL complexes, respectively. The number of bound POM molecules to HEWL was 1.04 for the lacunary Keggin POM, and 1.0 for Eu-Keggin, indicating the formation of a 1:1 POM/HEWL complex. The value of 1.38 for Ce-Keggin might indicate a transition from 1:1 to 1:2 interaction.

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Section: Eu(iii) Luminescence Of Eu-keggin Pom In the Presence Of Prosupporting

confidence: 91%

“…1). This was also found in previous experiments [51]. Remarkably, q(Eu) decreases linearly when the concentration of Eu-Keggin POM is increased (Fig.…”

Section: Solution Speciation Of Eu-keggin Pomsupporting

confidence: 80%

Section: Solution Speciation Of Eu-keggin Pommentioning

confidence: 68%

Section: Solution Speciation Of Eu-keggin Pommentioning

confidence: 96%

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Eu(III) luminescence and tryptophan fluorescence spectroscopy as a tool for understanding interactions between hen egg white lysozyme and metal-substituted Keggin type polyoxometalates

Goovaerts

Stroobants

Absillis

et al. 2015

Journal of Inorganic Biochemistry

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“…The resulting GdW 10 @BSA NCs were stored at room temperature for further experiments. [79][80][81] Characterizations of GdW 10 nanoclusters and GdW 10 -BSA The size distributions of the GdW 10 NCs and the GdW 10 @BSA NCs were measured on a Nicomp380 ZLS plus ZETADi. The X-ray photoelectron spectra of the GdW 10 NCs were obtained on a Kratos AXIS-165 surface analysis system.…”

Section: @Bsa Ncsmentioning

confidence: 99%

Gadolinium polytungstate nanoclusters: a new theranostic with ultrasmall size and versatile properties for dual-modal MR/CT imaging and photothermal therapy/radiotherapy of cancer

et al. 2016

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The development of a new generation of nanoscaled theranostics with simple compositions and versatile properties to realize enhanced diagnoses and treatment outcomes and to avoid side effects is highly desirable but remains a great challenge. Here we report a new ultrasmall theranostic based on bovine serum albumin-coated GdW 10 O 36 nanoclusters (GdW 10 NCs) as multifunctional theranostics for multifunctional bio-imaging, highly effective in vitro photothermal ablation of cancer cells and in vivo radiotherapy of tumors. The as-synthesized GdW 10 NCs afford significantly enhanced computed tomography/magnetic resonance imaging signals and remarkable photothermal therapy (PTT)/radiotherapy therapy (RT) therapeutic effects for tumor treatment. Moreover, toxicity studies confirmed their low toxicity and efficient renal clearance, suggesting their potential for practical applications. These results indicated that the as-prepared GdW 10 nanoclusters are promising as multifunctional nanotheranostics for multimodal imaging-guided PTT/RT of tumors. These results also encourage the further exploration of other polyoxometalate-based multifunctional nanotheranostics for cancer diagnoses and therapy.

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Highly Amino Acid Selective Hydrolysis of Myoglobin at Aspartate Residues as Promoted by Zirconium(IV)‐Substituted Polyoxometalates

Absillis

Janssens

et al. 2015

Angewandte Chemie

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SDS‐PAGE/Edman degradation and HPLC MS/MS showed that zirconium(IV)‐substituted Lindqvist‐, Keggin‐, and Wells–Dawson‐type polyoxometalates (POMs) selectively hydrolyze the protein myoglobin at AspX peptide bonds under mildly acidic and neutral conditions. This transformation is the first example of highly sequence selective protein hydrolysis by POMs, a novel class of protein‐hydrolyzing agents. The selectivity is directed by Asp residues located on the surface of the protein and is further assisted by electrostatic interactions between the negatively charged POMs and positively charged surface patches in the vicinity of the cleavage site.

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Molecular interactions between serum albumin proteins and Keggin type polyoxometalates studied using luminescence spectroscopy

Cited by 75 publications

References 61 publications

Eu(III) luminescence and tryptophan fluorescence spectroscopy as a tool for understanding interactions between hen egg white lysozyme and metal-substituted Keggin type polyoxometalates

Eu(III) luminescence and tryptophan fluorescence spectroscopy as a tool for understanding interactions between hen egg white lysozyme and metal-substituted Keggin type polyoxometalates

Gadolinium polytungstate nanoclusters: a new theranostic with ultrasmall size and versatile properties for dual-modal MR/CT imaging and photothermal therapy/radiotherapy of cancer

Highly Amino Acid Selective Hydrolysis of Myoglobin at Aspartate Residues as Promoted by Zirconium(IV)‐Substituted Polyoxometalates

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