Your search keyword '"Loyer, C."' showing total 4 results

1. Embrittlement of polybutylene terephthalate induced by injection molding

Author

Loyer, C., Ferreira, P., Marijon, J-B., Michel, V., Régnier, G., Vera, J., Duval, V., and Richaud, E.

Published

2022

2. Extensive longevity and DNA virus-driven adaptation in nearctic Myotis bats.

Author

Vazquez JM, Lauterbur ME, Mottaghinia S, Bucci M, Fraser D, Gray-Sandoval G, Gaucherand L, Haidar ZR, Han M, Kohler W, Lama TM, Le Corf A, Loyer C, Maesen S, McMillan D, Li S, Lo J, Rey C, Capel SL, Singer M, Slocum K, Thomas W, Tyburec JD, Villa S, Miller R, Buchalski M, Vazquez-Medina JP, Pfeffer S, Etienne L, Enard D, and Sudmant PH

Abstract

The genus Myotis is one of the largest clades of bats, and exhibits some of the most extreme variation in lifespans among mammals alongside unique adaptations to viral tolerance and immune defense. To study the evolution of longevity-associated traits and infectious disease, we generated near-complete genome assemblies and cell lines for 8 closely related species of Myotis . Using genome-wide screens of positive selection, analyses of structural variation, and functional experiments in primary cell lines, we identify new patterns of adaptation contributing to longevity, cancer resistance, and viral interactions in bats. We find that Myotis bats have some of the most significant variation in cancer risk across mammals and demonstrate a unique DNA damage response in primary cells of the long-lived M. lucifugus . We also find evidence of abundant adaptation in response to DNA viruses - but not RNA viruses - in Myotis and other bats in sharp contrast with other mammals, potentially contributing to the role of bats as reservoirs of zoonoses. Together, our results demonstrate how genomics and primary cells derived from diverse taxa uncover the molecular bases of extreme adaptations in non-model organisms., Competing Interests: Declaration of Interests: The authors declare no competing interests.

Published

2024

3. SAMD9L acts as an antiviral factor against HIV-1 and primate lentiviruses by restricting viral and cellular translation.

Author

Legrand A, Dahoui C, De La Myre Mory C, Noy K, Guiguettaz L, Versapuech M, Loyer C, Pillon M, Wcislo M, Guéguen L, Berlioz-Torrent C, Cimarelli A, Mateo M, Fiorini F, Ricci EP, and Etienne L

Subjects

Humans, Animals, HEK293 Cells, Protein Biosynthesis, Antiviral Restriction Factors, Intracellular Signaling Peptides and Proteins metabolism, Intracellular Signaling Peptides and Proteins genetics, HIV Infections virology, HIV Infections drug therapy, Tumor Suppressor Proteins, HIV-1 genetics, HIV-1 physiology, Virus Replication, Lentiviruses, Primate genetics, Lentiviruses, Primate metabolism

Abstract

Sterile alpha motif domain-containing proteins 9 and 9-like (SAMD9/9L) are associated with life-threatening genetic diseases in humans and are restriction factors of poxviruses. Yet, their cellular function and the extent of their antiviral role are poorly known. Here, we found that interferon-stimulated human SAMD9L restricts HIV-1 in the late phases of replication, at the posttranscriptional and prematuration steps, impacting viral translation and, possibly, endosomal trafficking. Surprisingly, the paralog SAMD9 exerted an opposite effect, enhancing HIV-1. More broadly, we showed that SAMD9L restricts primate lentiviruses, but not a gammaretrovirus (MLV), nor 2 RNA viruses (arenavirus MOPV and rhabdovirus VSV). Using structural modeling and mutagenesis of SAMD9L, we identified a conserved Schlafen-like active site necessary for HIV-1 restriction by human and a rodent SAMD9L. By testing a gain-of-function constitutively active variant from patients with SAMD9L-associated autoinflammatory disease, we determined that SAMD9L pathogenic functions also depend on the Schlafen-like active site. Finally, we found that the constitutively active SAMD9L strongly inhibited HIV, MLV, and, to a lesser extent, MOPV. This suggests that the virus-specific effect of SAMD9L may involve its differential activation/sensing and the virus ability to evade from SAMD9L restriction. Overall, our study identifies SAMD9L as an HIV-1 antiviral factor from the cell autonomous immunity and deciphers host determinants underlying the translational repression. This provides novel links and therapeutic avenues against viral infections and genetic diseases., Competing Interests: The authors have declared that no competing interests exist., (Copyright: © 2024 Legrand et al. This is an open access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.)

Published

2024

4. Impairment of neutrophil functions and homeostasis in COVID-19 patients: association with disease severity.

Author

Loyer C, Lapostolle A, Urbina T, Elabbadi A, Lavillegrand JR, Chaigneau T, Simoes C, Dessajan J, Desnos C, Morin-Brureau M, Chantran Y, Aucouturier P, Guidet B, Voiriot G, Ait-Oufella H, and Elbim C

Subjects

Aged, Homeostasis, Humans, Inflammation, Longitudinal Studies, Neutrophils physiology, SARS-CoV-2, Severity of Illness Index, COVID-19, Community-Acquired Infections, Pneumonia pathology

Abstract

Background: A dysregulated immune response is emerging as a key feature of critical illness in COVID-19. Neutrophils are key components of early innate immunity that, if not tightly regulated, contribute to uncontrolled systemic inflammation. We sought to decipher the role of neutrophil phenotypes, functions, and homeostasis in COVID-19 disease severity and outcome., Methods: By using flow cytometry, this longitudinal study compares peripheral whole-blood neutrophils from 90 COVID-19 ICU patients with those of 22 SARS-CoV-2-negative patients hospitalized for severe community-acquired pneumonia (CAP) and 38 healthy controls. We also assessed correlations between these phenotypic and functional indicators and markers of endothelial damage as well as disease severity., Results: At ICU admission, the circulating neutrophils of the COVID-19 patients showed continuous basal hyperactivation not seen in CAP patients, associated with higher circulating levels of soluble E- and P-selectin, which reflect platelet and endothelial activation. Furthermore, COVID-19 patients had expanded aged-angiogenic and reverse transmigrated neutrophil subsets-both involved in endothelial dysfunction and vascular inflammation. Simultaneously, COVID-19 patients had significantly lower levels of neutrophil oxidative burst in response to bacterial formyl peptide. Moreover patients dying of COVID-19 had significantly higher expansion of aged-angiogenic neutrophil subset and greater impairment of oxidative burst response than survivors., Conclusions: These data suggest that neutrophil exhaustion may be involved in the pathogenesis of severe COVID-19 and identify angiogenic neutrophils as a potentially harmful subset involved in fatal outcome., (© 2022. The Author(s).)

Published

2022