Publications by authors named "Laurent Marichal"

Article Synopsis
  • Platinum nanoparticles (Pt NPs) show great promise in nanomedicine due to their high electron density and surface area, with intravenous injection being the preferred delivery method.
  • Research using synchrotron radiation circular dichroism (SRCD) explored how these nanoparticles interact with human serum albumin (HSA), a key blood component, showing no strong complexation except for some increased thermal stability at a specific nanoparticle-to-protein ratio.
  • The study suggests a quick method to assess the potential toxicity of Pt NPs for clinical use, particularly for intravenous applications.
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Functional amyloids are commonly produced by many microorganisms and their biological functions are numerous. Staphylococcus aureus can secrete a group of peptides named phenol-soluble modulins (PSMs) in their biofilm extracellular matrix. PSMs have been found inside biofilms both in their soluble form and assembled into amyloid structures.

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The adsorption of proteins on surfaces has been studied for a long time, but the relationship between the structural and functional properties of the adsorbed protein and the adsorption mechanism remains unclear. Using hemoglobin adsorbed on silica nanoparticles, we have previously shown that hemoglobin's affinity towards oxygen increases with adsorption. Nevertheless, it was also shown that there were no significant changes in the quaternary and secondary structures.

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X-ray photoelectron spectroscopy of bovine serum albumin (BSA) in a liquid jet is used to investigate the electronic structure of a solvated protein, yielding insight into charge transfer mechanisms in biological systems in their natural environment. No structural damage was observed in BSA following X-ray photoelectron spectroscopy in a liquid jet sample environment. Carbon and nitrogen atoms in different chemical environments were resolved in the X-ray photoelectron spectra of both solid and solvated BSA.

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The consequences of agitation on protein stability are particularly relevant to therapeutic proteins. However, the precise contribution of the different effects induced by agitation in pathways leading to protein denaturation and aggregation at interfaces is not entirely understood. In particular, the contribution of a moving triple line, induced by the sweeping of a solution meniscus on a container wall upon agitation, has only been rarely assessed.

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The process of genome packaging in most of viruses is poorly understood, notably the role of the genome itself in the nucleocapsid structure. For simple icosahedral single-stranded RNA viruses, the branched topology due to the RNA secondary structure is thought to lower the free energy required to complete a virion. We investigate the structure of nucleocapsids packaging RNA segments with various degrees of compactness by small-angle x-ray scattering and cryotransmission electron microscopy.

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Few experimental techniques allow the analysis of the protein corona . As a result, little is known on the effects of nanoparticles on weakly bound proteins that form the soft corona. Despite its biological importance, our understanding of the molecular bases driving its formation is limited.

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Article Synopsis
  • AGuIX is a gadolinium-based nanoagent that enhances radiotherapy and medical imaging and is currently in clinical trials.
  • This study investigates how AGuIX interacts with human serum albumin, the most common blood protein, finding that it doesn't bind to the protein but increases its stability.
  • The research indicates that using AGuIX poses minimal risks to the bloodstream, and the methods developed can help assess other nano-products' effects on blood components.
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Protein adsorption on nanoparticles is an important field of study, particularly with regard to nanomedicine and nanotoxicology. Many factors can influence the composition and structure of the layer(s) of adsorbed proteins, the so-called protein corona. However, the role of protein size has not been specifically investigated, although some evidence has indicated its potential important role in corona composition and structure.

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Article Synopsis
  • * Using small-angle X-ray scattering and cryo-transmission electron microscopy, researchers found that increased capsid protein concentrations lead to the formation of closed spherical shells with RNA, contrary to earlier findings.
  • * Monte Carlo simulations indicated that as the virus shell grows, disordered intermediates become less favorable energetically, supporting the notion that the transition to a perfect icosahedral structure depends on the balance of elastic energy with other forces like protein interactions.
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Article Synopsis
  • Biomolecules, especially proteins, form a "protein corona" on the surfaces of nanoparticles (NPs), influencing their biological behavior and toxicity.
  • The study focused on silica nanoparticles (SiNPs) of various sizes and found that larger NPs tend to have more proteins adsorbed per surface area, although most proteins were similar across different NP sizes.
  • Key factors driving protein adsorption include electrostatic interactions and disordered protein regions, while the polypeptide sequence length also plays a significant role, suggesting that curvature is not a primary factor in complex biological environments.
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In the field of nanomedicine, nanostructured nanoparticles (NPs) made of self-assembling prodrugs emerged in the recent years with promising properties. In particular, squalene-based drug nanoparticles have already shown their efficiency through in vivo experiments. However, a complete pattern of their stability and interactions in the blood stream is still lacking.

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Protein adsorption on a surface is generally evaluated in terms of the evolution of the proteins' structures and functions. However, when the surface is that of a nanoparticle, the protein corona formed around it possesses a particular supramolecular structure that gives a "biological identity" to the new object. Little is known about the actual shape of the protein corona.

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Understanding the mechanisms involved in the interaction of proteins with inorganic surfaces is of major interest for both basic research and practical applications involving nanotechnology. From the list of cellular proteins with the highest affinity for silica nanoparticles, we highlighted the group of proteins containing arginine-glycine-glycine (RGG) motifs. Biochemical experiments confirmed that RGG motifs interact strongly with the silica surfaces.

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Upon contact with biological fluids, nanoparticles (NPs) are readily coated by cellular compounds, particularly proteins, which are determining factors for the localization and toxicity of NPs in the organism. Here, we improved a methodological approach to identify proteins that adsorb on silica NPs with high affinity. Using large-scale proteomics and mixtures of soluble proteins prepared either from yeast cells or from alveolar human cells, we observed that proteins with large unstructured region(s) are more prone to bind on silica NPs.

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The coffee-ring effect denotes the accumulation of particles at the edge of an evaporating sessile drop pinned on a substrate. Because it can be detected by simple visual inspection, this ubiquitous phenomenon can be envisioned as a robust and cost-effective diagnostic tool. Toward this direction, here we systematically analyze the deposit morphology of drying drops containing polystyrene particles of different surface properties with various proteins (bovine serum albumin (BSA) and different forms of hemoglobin).

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