Phosphorylated cofilin-2 is more prone to oxidative modifications on Cys39 and favors amyloid fibril formation

Pignataro, Marcello; Rocco, Giulia Di; Lancellotti, Lidia; Bernini, Fabrizio; Subramanian, Khaushik; Castellini, Elena; Bortolotti, Carlo Augusto; Malferrari, Daniele; Moro, Daniele; Valdrè, Giovanni; Borsari, Marco; Monte, Federica del

doi:10.1016/j.redox.2020.101691

Cited by 13 publications

(12 citation statements)

References 70 publications

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“…In the last two decades, smectites and, in general, clay minerals were employed as substrates for different and various fundamental and applied research involving biomolecules. For example, clays are able to condense, organize, and concentrate biomolecules of different kinds and sizes [15][16][17][18][19][20][21], and, if the clay substrates present both Brønsted and Lewis acid sites [22,23], they may also act as catalysts. Notwithstanding the important biotechnological applications of clay minerals, these types of studies are also of utmost interest in the field of prebiotic chemistry, i.e., in all the steps (selection, concentration, synthesis, and protection) that lead from the basic building blocks of life (amino acids, nucleotides, lipids) to functional macromolecules (peptides, RNA/DNA, membranes) and, eventually, to the first cell [24,25].…”

Section: Introductionmentioning

confidence: 99%

DFT Simulation of the Water Molecule Interaction with the (00l) Surface of Montmorillonite

2021

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Montmorillonite is one of the principal mineralogical phases in clay minerals, where its interaction with water and other molecules represents one of the most important aspects and properties for basic science and specific applications. In fact, montmorillonite has many uses in various scientific and technological fields, ranging from environmental remediation to ceramics, food science, and construction/building materials. Several efforts have characterized its structure and physico-chemical properties, especially at the Tetrahedral-Octahedral-Tetrahedral TOT surface. For this purpose, in this work, the authors investigated the structural and electrostatic potential features of the (00l) surface of montmorillonite and the water adsorption process by first principle methods (density functional theory, DFT), considering both static and molecular dynamics approaches. The provided data further extend the knowledge of the modulation of the water molecule adsorption with this important clay mineral.

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Section: Introductionmentioning

confidence: 99%

DFT Simulation of the Water Molecule Interaction with the (00l) Surface of Montmorillonite

2021

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“…The available literature suggests that cofilin-2, the muscle isoform of the ADF/cofilin family, is involved in the etiology of various pathological conditions, such as protein aggregate accumulations in cardiomyopathies [17]. Pignataro et al suggested that the phosphorylated cofilin-2 might form amyloid-like fibrillar structures, but only under pathophysiological conditions, such as oxidative distress [4]. However, the cofilin-2 amyloid formation under physiological conditions remains unexplored.…”

Section: Discussionmentioning

confidence: 99%

“…Previously, it was shown that phosphorylation of cofilin-2 promotes its aggregation under oxidative distress [4]. We asked whether the protein stability is affected by the phosphorylation of cofilin-2.…”

Section: Phosphorylation Did Not Significantly Affect Cofilin-2 Stabilitymentioning

confidence: 98%

“…Despite highly identical sequences (~80% sequence identity) and similar affinities for G-actin and F-actin between the cofilins, cofilin-2 severs actin filaments more efficiently than cofilin-1 [2,3]. Moreover, cofilin-2 possesses only two cysteine residues, i.e., Cys-39 and Cys-80, while cofilin-1 has two additional cysteines at positions 139 and 147 [4]. Cofilin-2 has evolved its biochemical and cellular properties to regulate actin dynamics in sarcomeres [5].…”

Section: Introductionmentioning

confidence: 99%

“…Our recent finding revealed that cofilin-1 possesses an intrinsic propensity to form higher-order amyloidogenic fibrillar structures, and this amyloidogenesis is further aggravated by Cys-80 oxidation [20]. It has been divulged that the phosphorylated form of cofilin-2, under oxidative distress, forms fibrillar aggregates, which involves Cys-39 [4]. However, it is not yet clear whether cofilin-2 has an intrinsic property of amyloidogenesis under physiological conditions.…”

Section: Introductionmentioning

confidence: 99%

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Computational and biochemical analyses reveal that cofilin-2 self assembles into amyloid-like structures and promotes the aggregation of other proteinaceous species: Pathogenic relevance to myopathies

Kaushik

Hanschmann

Bruennert

et al. 2021

Preprint

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Cofilin-2 is a member of the ADF/cofilin family, expressed extensively in adult muscle cells and involved in muscle maintenance and regeneration. Phosphorylated cofilin-2 is found in pre-fibrillar aggregates formed during idiopathic dilated cardiomyopathy. A recent study shows that phosphorylated cofilin-2, under oxidative distress, forms fibrillar aggregates. However, it remains unknown if cofilin-2 holds an innate propensity to form amyloid-like structures. In the present study, we employed various computational and biochemical techniques to explore the amyloid-forming potential of cofilin-2. We report that cofilin-2 possesses aggregation-prone regions (APRs), and these APRs get exposed to the surface, become solvent-accessible, and are involved in the intermolecular interactions during dimerization, an early stage of aggregation. Furthermore, the cofilin-2 amyloids, formed under physiological conditions, are capable of cross-seeding other monomeric globular proteins and amino acids, thus promoting their aggregation. We further show that Cys-39 and Cys-80 are critical in maintaining the thermodynamic stability of cofilin-2. The destabilizing effect of oxidation at Cys-39 but not that at Cys-80 is mitigated by Ser-3 phosphorylation. Cysteine oxidation leads to partial unfolding and loss of structure, suggesting that cysteine oxidation further induces early events of cofilin-2 aggregation. Overall, our results pose a possibility that cofilin-2 amyloidogenesis might be involved in the pathophysiology of diseases, such as myopathies. We propose that the exposure of APRs to the surface could provide mechanistic insight into the higher-order aggregation and amyloidogenesis of cofilin-2. Moreover, the cross-seeding activity of cofilin-2 amyloids hints towards its involvement in the hetero-aggregation in various amyloid-linked diseases.

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SAM-modified electrodes for understanding and harnessing the properties of redox proteins

Zitare,

Szuster,

Murgida

2024

Current Opinion in Electrochemistry

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Phosphorylated cofilin-2 is more prone to oxidative modifications on Cys39 and favors amyloid fibril formation

Cited by 13 publications

References 70 publications

DFT Simulation of the Water Molecule Interaction with the (00l) Surface of Montmorillonite

DFT Simulation of the Water Molecule Interaction with the (00l) Surface of Montmorillonite

Computational and biochemical analyses reveal that cofilin-2 self assembles into amyloid-like structures and promotes the aggregation of other proteinaceous species: Pathogenic relevance to myopathies

SAM-modified electrodes for understanding and harnessing the properties of redox proteins

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