Your search keyword '"Sandrine Péron"' showing total 9 results

1. Krypton in the Chassigny meteorite shows Mars accreted chondritic volatiles before nebular gases

Author

Sandrine Péron and Sujoy Mukhopadhyay

Subjects

Multidisciplinary

Abstract

Volatile elements are thought to have been delivered to Solar System terrestrial planets late in their formation through accretion of chondritic meteorites. Mars can provide information on inner Solar System volatile delivery during the earliest planet formation stages. We measured krypton isotopes in the martian meteorite Chassigny, representative of the planet’s interior. We found chondritic krypton isotope ratios, which imply early incorporation of chondritic volatiles. The atmosphere of Mars has different (solar-type) krypton isotope ratios, indicating that it is not a product of magma ocean outgassing or fractionation of interior volatiles. Atmospheric krypton instead originates from accretion of solar nebula gas after formation of the mantle but before nebular dissipation. Our observations contradict the common hypothesis that during planet formation, chondritic volatile delivery occurred after solar gas acquisition.

Published

2022

2. Early volatile degassing and the pre-subduction noble gas elemental pattern of the mantle

Author

Sujoy Mukhopadhyay, Michael Huh, and Sandrine Péron

Published

2022

3. Pre-subduction mantle noble gas elemental pattern reveals larger missing xenon in the deep interior compared to the atmosphere

Author

Sandrine Péron and Sujoy Mukhopadhyay

Subjects

Geophysics, Space and Planetary Science, Geochemistry and Petrology, Earth and Planetary Sciences (miscellaneous)

Published

2022

4. Deep-mantle krypton reveals Earth's early accretion of carbonaceous matter

Author

Sandrine Péron, Sujoy Mukhopadhyay, Mark D. Kurz, and David W. Graham

Subjects

Neutrons, Geologic Sediments, Multidisciplinary, Evolution, Chemical, Xenon, Atmosphere, Earth, Planet, Nitrogen, Iceland, Krypton, Neon, Meteoroids, Helium, Carbon, Tungsten, Isotopes, Ecuador, Evolution, Planetary

Abstract

Establishing when, and from where, carbon, nitrogen and water were delivered to Earth is a fundamental objective in understanding the origin of habitable planets such as Earth. Yet, volatile delivery to Earth remains controversial

Published

2020

5. Chaperone-Mediated Autophagy in the Light of Evolution: Insight from Fish

Author

Laury, Lescat, Vincent, Véron, Brigitte, Mourot, Sandrine, Péron, Nathalie, Chenais, Karine, Dias, Natàlia, Riera-Heredia, Florian, Beaumatin, Karine, Pinel, Muriel, Priault, Stéphane, Panserat, Bénédicte, Salin, Yann, Guiguen, Julien, Bobe, Amaury, Herpin, and Iban, Seiliez

Subjects

Oryzias, Chaperone-Mediated Autophagy, Exons, Fibroblasts, Lipid Metabolism, humanities, Autophagic Punctum, Cell Line, Evolution, Molecular, Mice, Lysosomal-Associated Membrane Protein 2, Animals, Carbohydrate Metabolism, Humans, health care economics and organizations

Abstract

Chaperone-mediated autophagy (CMA) is a major pathway of lysosomal proteolysis recognized as a key player of the control of numerous cellular functions, and whose defects have been associated with several human pathologies. To date, this cellular function is presumed to be restricted to mammals and birds, due to the absence of an identifiable lysosome-associated membrane protein 2A (LAMP2A), a limiting and essential protein for CMA, in nontetrapod species. However, the recent identification of expressed sequences displaying high homology with mammalian LAMP2A in several fish species challenges that view and suggests that CMA likely appeared earlier during evolution than initially thought. In the present study, we provide a comprehensive picture of the evolutionary history of the LAMP2 gene in vertebrates and demonstrate that LAMP2 indeed appeared at the root of the vertebrate lineage. Using a fibroblast cell line from medaka fish (Oryzias latipes), we further show that the splice variant lamp2a controls, upon long-term starvation, the lysosomal accumulation of a fluorescent reporter commonly used to track CMA in mammalian cells. Finally, to address the physiological role of Lamp2a in fish, we generated knockout medaka for that specific splice variant, and found that these deficient fish exhibit severe alterations in carbohydrate and fat metabolisms, in consistency with existing data in mice deficient for CMA in liver. Altogether, our data provide the first evidence for a CMA-like pathway in fish and bring new perspectives on the use of complementary genetic models, such as zebrafish or medaka, for studying CMA in an evolutionary perspective.

Published

2020

6. The Heavy Noble Gas (Kr, Xe) Composition of the Galapagos Hotspot: Insights into the Origin and Evolution of Mantle Volatiles

Author

Sandrine Péron, Sujoy Mukhopadhyay, and Mark Kurz

Published

2020

7. Development of innate immune memory by non-immune cells during Staphylococcus aureus infection depends on reactive oxygen species

Author

Emmanuel Chaumond, Sandrine Peron, Nathalie Daniel, Yann Le Gouar, Éric Guédon, David L. Williams, Yves Le Loir, Gwénaël Jan, and Nadia Berkova

Subjects

Staphylococcus aureus, Lactococcus lactis, innate immune memory, non-immune cells, epigenetics, immune response, Immunologic diseases. Allergy, RC581-607

Abstract

IntroductionThe mechanisms underlying innate immune memory (trained immunity) comprise epigenetic reprogramming of transcriptional pathways associated with alterations of intracellular metabolism. While the mechanisms of innate immune memory carried out by immune cells are well characterized, such processes in non-immune cells, are poorly understood. The opportunistic pathogen, Staphylococcus aureus, is responsible for a multitude of human diseases, including pneumonia, endocarditis and osteomyelitis, as well as animal infections, including chronic cattle mastitis that are extremely difficult to treat. An induction of innate immune memory may be considered as a therapeutic alternative to fight S. aureus infection.MethodsIn the current work, we demonstrated the development of innate immune memory in non-immune cells during S. aureus infection employing a combination of techniques including Enzyme-linked immunosorbent assay (ELISA), microscopic analysis, and cytometry. ResultsWe observed that training of human osteoblast-like MG-63 cells and lung epithelial A549 cells with β-glucan increased IL-6 and IL-8 production upon a stimulation with S. aureus, concomitant with histones modifications. IL-6 and IL-8 production was positively correlated with an acetylation of histone 3 at lysine 27 (H3K27), thus suggesting epigenetic reprogramming in these cells. An addition of the ROS scavenger N-Acetylcysteine, NAC, prior to β-glucan pretreatment followed by an exposure to S. aureus, resulted in decreased IL-6 and IL-8 production, thereby supporting the involvement of ROS in the induction of innate immune memory. Exposure of cells to Lactococcus lactis resulted in increased IL-6 and IL-8 production by MG-63 and A549 cells upon a stimulation with S. aureus that was correlated with H3K27 acetylation, suggesting the ability of this beneficial bacterium to induce innate immune memory. DiscussionThis work improves our understanding of innate immune memory in non-immune cells in the context of S. aureus infection. In addition to known inducers, probiotics may represent good candidates for the induction of innate immune memory. Our findings may help the development of alternative therapeutic approaches for the prevention of S. aureus infection.

Published

2023

8. Comparison of interferometric light microscopy with nanoparticle tracking analysis for the study of extracellular vesicles and bacteriophages

Author

Romain Sausset, Zuzana Krupova, Eric Guédon, Sandrine Peron, Alice Grangier, Marie‐Agnès Petit, Luisa De Sordi, and Marianne De Paepe

Subjects

bacterial vesicles, bacteriophages, extracellular vesicles, interferometric light microscopy, nanoparticle tracking analysis, Cytology, QH573-671

Abstract

Abstract Research on extracellular vesicles (EVs) and bacteriophages (phages) has been steadily expanding over the past decades as many of their roles in medicine, biology, and ecosystems have been unveiled. Such interest has brought about the need for new tools to quantify and determine the sizes of these biological nanoparticles. A new device based on interferometric light microscopy (ILM), the Videodrop, was recently developed for this purpose. Here, we compared this new device to two nanoparticle tracking analysis (NTA) devices, the NanoSight and the ZetaView, for the analysis of EVs and phages. We used EVs isolated from bacteria, fecal samples, bovine milk and human cells, and phages of various sizes and shape, ranging from 30 to 120 nm of diameter. While NTA instruments correctly enumerated most phages, the Videodrop detected only the largest one, indicating a lower sensitivity threshold compared to the NTA devices. Nevertheless, the performance of the Videodrop compared favourably to that of the NTA devices for the determination of the concentration of eukaryotic EV samples. The NanoSight instrument provided the most precise size distributions but the Videodrop was by far the most time‐saving device, making it worthy of consideration for studies conducted on a large number of samples composed of nanoparticles larger than 90 nm.

Published

2023

9. Transcriptomic Analysis of Trout Gill Ionocytes in Fresh Water and Sea Water Using Laser Capture Microdissection Combined with Microarray Analysis.

Author

Isabelle Leguen, Aurélie Le Cam, Jérôme Montfort, Sandrine Peron, and Alain Fautrel

Subjects

Medicine, Science

Abstract

Fish gills represent a complex organ composed of several cell types that perform multiple physiological functions. Among these cells, ionocytes are implicated in the maintenance of ion homeostasis. However, because the ionocyte represents only a small percent of whole gill tissue, its specific transcriptome can be overlooked among the numerous cell types included in the gill. The objective of this study is to better understand ionocyte functions by comparing the RNA expression of this cell type in freshwater and seawater acclimated rainbow trout. To realize this objective, ionocytes were captured from gill cryosections using laser capture microdissection after immunohistochemistry. Then, transcriptome analyses were performed on an Agilent trout oligonucleotide microarray. Gene expression analysis identified 108 unique annotated genes differentially expressed between freshwater and seawater ionocytes, with a fold change higher than 3. Most of these genes were up-regulated in freshwater cells. Interestingly, several genes implicated in ion transport, extracellular matrix and structural cellular proteins appeared up-regulated in freshwater ionocytes. Among them, several ion transporters, such as CIC2, SLC26A6, and NBC, were validated by qPCR and/or in situ hybridization. The latter technique allowed us to localize the transcripts of these ion transporters in only ionocytes and more particularly in the freshwater cells. Genes involved in metabolism and also several genes implicated in transcriptional regulation, cell signaling and the cell cycle were also enhanced in freshwater ionocytes. In conclusion, laser capture microdissection combined with microarray analysis allowed for the determination of the transcriptional signature of scarce cells in fish gills, such as ionocytes, and aided characterization of the transcriptome of these cells in freshwater and seawater acclimated trout.

Published

2015