Structural characterization of actinide-calmodulin complexes by NMR spectroscopy - CEA - Commissariat à l’énergie atomique et aux énergies alternatives
Communication Dans Un Congrès Année : 2024

Structural characterization of actinide-calmodulin complexes by NMR spectroscopy

Résumé

Actinides are radioactive metals of high importance in civil and military nuclear industries. They can be found in the environment due to historical dissemination resulting from atmospheric nuclear weapon tests. Moreover, in the context of nuclear waste disposal and nuclear facilities dismantling, the handling of actinides poses a risk of contamination for the operators. Given their strong radiotoxicity, it is essential to investigate their behavior within the human body. While the targeted organs are well-known, the transport mechanism and molecular interactions remain unidentified. Proteins have b1een identified as actinide targets in the event of human contamination. Although the literature on the interactions between actinides and proteins is scarce, metalloproteomic studies have shown that several calcium-binding proteins have a strong affinity for actinides1. As a model for all calcium-binding protein, the calcium-modulated protein (calmodulin) was chosen for its EF-hand motif site, which is widely present in calcium-biding proteins. Loïc Daronnat investigated the interaction of plutonium(IV) with several variants of the calmodulin and observed various behaviors of the plutonium depending on the variant of calmodulin used2: the formation of a Pu(IV)-calmodulin complex, the formation of a Pu(III)-calmodulin complex and the formation of hexanuclear clusters of plutonium. CaME (Engineered Calmodulin) is a variant of calmodulin developed especially to bind plutonium(IV). This variant has an extra carboxylate ligand in its complexation loop (shown in figure 1), increasing its affinity for actinides IV. This particular variant was the only which did not promote the formation of plutonium clusters. Instead, it only generated 1:1 complexes. Additionally, an unexpected change of the oxidation state of plutonium (from IV to III) was noticed in presence of CaME.3 To get a better understanding of this behavior, a deepened characterization of the species formed between CaME and actinides have been undertaken. This work aims to characterize the complexes formed between CaME and actinides (Th, U, Np, Pu), using different experimental techniques. Electrospray Ionization Mass Spectrometry was used to determine the stoichiometry of the complexes and UV-Vis-NIR Spectroscopy was used to characterize the environment of the actinide. Structural data were obtain through two or three-dimensional NMR spectroscopy. For that, an extra batch of CaME was synthetized and enriched with 13C and 15N, allowing for 1H-13C-15N NMR analysis. The comparison of the RMN spectra of the protein and the complexes formed will allow to identify the amino acids involved in the coordination sphere of the metallic ions. References 1) Aryal, B. P. J. Proteomics 2012, 75 (5), 1505–1514 2) Daronnat, L. Doctorat Ph D thesis of the Montpellier University, 2023 3) Daronnat, L. Inorg. Chem. 2023, 62 (21), 8334–8346
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Dates et versions

cea-04736404 , version 1 (14-10-2024)

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  • HAL Id : cea-04736404 , version 1

Citer

Emilien Faux, Loïc Daronnat, Catherine Berthomieu, Sandrine Sauge-Merle, Laurence Berthon-Nigond, et al.. Structural characterization of actinide-calmodulin complexes by NMR spectroscopy. 2nd international conference on Metal-Bonding peptides: methodologies ans application, Jul 2024, Toulouse, France. ⟨cea-04736404⟩
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