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14 results on '"Pardieu, Claire"'

1. Classical swine fever virus : analysis of the capsid protein core intracellular distribution and identification of its cellular partners

Author

Pardieu, Claire

Subjects
636.40896
Abstract

Classical swine fever virus (CSFV) causes a highly contagious haemorrhagic disease of pigs leading to large-scale economic losses in Europe. Acute, subacute, and chronic infections are produced depending on the virulence of the strain and host genetic factors. CSFV is a small enveloped-positive-strand RNA virus classified in the Pestivirus genus of the Flaviviridae. The generation of a persistent infection suggests CSFV is able to modulate innate immune responses and/or apotosis. CSFV shares many similarities with the human pathogen hepatitis C virus (HCV) which also causes persistent infections. The core (capsid) protein of HCV is a multifunctional protein able to modulate cellular transcription, signal transduction pathways, and contribute to viral immune escape. This thesis has carried out a yeast two-hybrid (Y2H) analysis of cellular proteins that bind CSFV core, and generated antibodies to follow its processing and its intracellular distribution. CSFV core bound proteins topors and Sp100 in the Y2H screen. These are nuclear proteins that reside in promyelocytic leukaemia (PML) oncogenic domains (PODs) and are involved in p53 ubiquitination, transcription, and DNA replication. Interestingly, Sp110b, a homologue of Sp100 and co-repressor of retinoic acid nuclear receptor retinoic α (RARα), has been shown to bind HCV core. This interaction was shown responsible for tissue transglutaminase gene activation and all-frans-retinoic acid (ATRA)-induced cell death sensitisation through cytoplasmic retention of Sp110b. CSFV core expressed alone located to nuclear dots that resemble PODs and partially co-localised with topors and Sp100 in cotransfection experiments. For HCV core, nuclear localisation requires processing and removal of the hydrophobic amino acids that form the signal peptide of E1; otherwise it binds the endoplasmic reticulum (ER). For CSFV, both the core protein fused to the signal peptide, and, a truncated form lacking this signal sequence located to the nucleus suggesting differences in protein trafficking between the two viruses.

Published
2005

4. HIV-1 Accessory Protein Vpr Interacts with REAF/RPRD2 To Mitigate Its Antiviral Activity

Author

Gibbons, Joseph M., primary, Marno, Kelly M., additional, Pike, Rebecca, additional, Lee, Wing-yiu Jason, additional, Jones, Christopher E., additional, Ogunkolade, Babatunji W., additional, Pardieu, Claire, additional, Bryan, Alexander, additional, Fu, Rebecca Menhua, additional, Warnes, Gary, additional, Rowley, Paul A., additional, Sloan, Richard D., additional, and McKnight, Áine, additional

Published
2020
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5. Cotrimoxazole reduces systemic inflammation in HIV infection by altering the gut microbiome and immune activation

Author

Bourke, Claire D., primary, Gough, Ethan K., additional, Pimundu, Godfrey, additional, Shonhai, Annie, additional, Berejena, Chipo, additional, Terry, Louise, additional, Baumard, Lucas, additional, Choudhry, Naheed, additional, Karmali, Yusuf, additional, Bwakura-Dangarembizi, Mutsa, additional, Musiime, Victor, additional, Lutaakome, Joseph, additional, Kekitiinwa, Adeodata, additional, Mutasa, Kuda, additional, Szubert, Alexander J., additional, Spyer, Moira J., additional, Deayton, Jane R., additional, Glass, Magdalena, additional, Geum, Hyun Min, additional, Pardieu, Claire, additional, Gibb, Diana M., additional, Klein, Nigel, additional, Edens, Thaddeus J., additional, Walker, A. Sarah, additional, Manges, Amee R., additional, and Prendergast, Andrew J., additional

Published
2019
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7. HIV-1 accessory protein Vpr interacts with REAF/RPRD2 to mitigate its antiviral activity

Author

Gibbons, Joseph M, primary, Marno, Kelly M, additional, Pike, Rebecca, additional, Lee, Wing-yiu Jason, additional, Jones, Christopher E, additional, Ogunkolade, Babatunji W, additional, Pardieu, Claire, additional, Bryan, Alexander, additional, Fu, Rebecca Menhua, additional, Warnes, Gary, additional, Rowley, Paul A, additional, Sloan, Richard D, additional, and McKnight, Áine, additional

Published
2018
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9. O06 Exploring host–microbiome–immune interactions using singular and multispecies inoculations in optimized 3D skin models.

Author

McPolin-Hall, Esmé, Stephen, Abish, Pardieu, Claire, Allaker, Robert, Philpott, Michae, Bhogal, Ranjit, Pople, Jenny, and Hannen, Rosalind

Subjects
MONONUCLEAR leukocytes, FILAGGRIN, ARYL hydrocarbon receptors, SKIN regeneration, CUTIBACTERIUM acnes, VACCINATION, HUMAN microbiota
Abstract

The human microbiome has a fundamental role in skin homeostasis, barrier function and host immune networks. Specifically, a complex and multispecies microbiome population is required for healthy skin. Acute and chronic skin conditions are often associated with imbalances in host–microbiome–immune interactions. Despite recent advances in skin microbiome research, there are limited models for studying these interactions in healthy and diseased skin; therefore, we have developed a model to investigate how different microbiome profiles alter epidermal homeostasis and T-cell responses. Full-thickness three-dimensional (3D) skin models, developed using primary dermal fibroblasts and keratinocytes isolated from adult skin, were colonized with five human microbiome species: Staphylococcus epidermidis (SE), Staphylococcus capitis (SC), Cutibacterium acnes (CA), Malassezia restricta (MR) and Malassezia globosa (MG), in singular or combined inoculations (5M). Significant changes in epidermal thickness were observed in models colonized with single-species inoculations compared with sterile control models; however, no significant changes in epidermal thickness were observed in models colonised with 5M inoculations. The effect of colonization on epidermal differentiation and barrier formation was observed via the expression of K14, K10, E-cadherin and Ki67. Expression of E-cadherin significantly decreased in models colonized with SC, MR and MG compared with sterile control models. Despite significant changes in epidermal thickness, only MG showed a significant decrease in Ki67 expression compared with sterile control models. No significant changes were observed in K10 and K14 expression following microbial inoculation. Overall, 5M inoculation showed no significant changes in biomarker expression or epidermal thickness compared with sterile control models suggesting a combination of microbes supports epidermal homeostasis as observed in vivo. Commensal microbes have been shown to regulate epidermal barrier function via the aryl hydrocarbon receptor (AhR). Increased nuclear expression of AhR was observed in response to SC, CA and 5M, suggesting these microbes have a greater role in AhR activation. To investigate microbiome–immune interactions in the skin, the expression of CD69, cutaneous lymphocyte antigen (CLA) and HLA-DR on T cells was assessed in response to incubating peripheral blood mononuclear cells with conditioned media from inoculated models. SE caused a significant increase in CD3+/CLA+ cells and 5M significantly reduced CD3+/HLA-DR+ cells. RNA sequencing aims to support current analysis and elucidate any more targets to be explored. Our findings suggest different microbial profiles alter epidermal barrier formation and immune responses. [ABSTRACT FROM AUTHOR]

Published
2023
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11. Classical Swine Fever Virus: Analysis of the Capsid Protein Core Intracellular Distribution and Identification of its Cellular Partners

Author

Pardieu, Claire.

Abstract

Classical swine fever virus (CSFV) causes a highly contagious haemorrhagic disease of pigs leading to large-scale economic losses in Europe. Acute, subacute, and chronic infections are produced depending on the virulence of the strain and host genetic factors. CSFV is a small enveloped-positive-strand RNA virus classified in the Pestivirus genus of the Flaviviridae. The generation of a persistent infection suggests CSFV is able to modulate innate immune responses and/or apotosis. CSFV shares many similarities with the human pathogen hepatitis C virus (HCV) which also causes persistent infections. The core (capsid) protein of HCV is a multifunctional protein able to modulate cellular transcription, signal transduction pathways, and contribute to viral immune escape. This thesis has carried out a yeast two-hybrid (Y2H) analysis of cellular proteins that bind CSFV core, and generated antibodies to follow its processing and its intracellular distribution. CSFV core bound proteins topors and Sp100 in the Y2H screen. These are nuclear proteins that reside in promyelocytic leukaemia (PML) oncogenic domains (PODs) and are involved in p53 ubiquitination, transcription, and DNA replication. Interestingly, Sp110b, a homologue of Sp100 and co-repressor of retinoic acid nuclear receptor retinoic α (RARα), has been shown to bind HCV core. This interaction was shown responsible for tissue transglutaminase gene activation and all-frans-retinoic acid (ATRA)-induced cell death sensitisation through cytoplasmic retention of Sp110b. CSFV core expressed alone located to nuclear dots that resemble PODs and partially co-localised with topors and Sp100 in cotransfection experiments. For HCV core, nuclear localisation requires processing and removal of the hydrophobic amino acids that form the signal peptide of E1; otherwise it binds the endoplasmic reticulum (ER). For CSFV, both the core protein fused to the signal peptide, and, a truncated form lacking this signal sequence located to the nucleus suggesting differences in protein trafficking between the two viruses.

Published
2005

13. Classical swine fever virus induces proinflammatory cytokines and tissue factor expression and inhibits apoptosis and interferon synthesis during the establishment of long-term infection of porcine vascular endothelial cells

Author

Bensaude, Emmanuelle, primary, Turner, Jane L. E., additional, Wakeley, Philip R., additional, Sweetman, David A., additional, Pardieu, Claire, additional, Drew, Trevor W., additional, Wileman, Thomas, additional, and Powell, Penelope P., additional

Published
2004
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14. Correlates between Models of Virulence for Mycobacterium tuberculosisamong Isolates of the Central Asian Lineage: a Case for Lysozyme Resistance Testing?

Author

Pardieu, Claire, Casali, Nicola, Clark, Simon O., Hooper, Richard, Williams, Ann, Velji, Preya, Gonzalo, Ximena, and Drobniewski, Francis

Abstract

ABSTRACTVirulence factors (VFs) contribute to the emergence of new human Mycobacterium tuberculosisstrains, are lineage dependent, and are relevant to the development of M. tuberculosisdrugs/vaccines. VFs were sought within M. tuberculosislineage 3, which has the Central Asian (CAS) spoligotype. Three isolates were selected from clusters previously identified as dominant in London, United Kingdom. Strain-associated virulence was studied in guinea pig, monocyte-derived macrophage, and lysozyme resistance assays. Whole-genome sequencing, single nucleotide polymorphism (SNP) analysis, and a literature review contributed to the identification of SNPs of interest. The animal model revealed borderline differences in strain-associated pathogenicity. Ex vivo, isolate C72 exhibited statistically significant differences in intracellular growth relative to C6 and C14. SNP candidates inducing lower fitness levels included 123 unique nonsynonymous SNPs, including three located in genes (lysX, caeA, and ponA2) previously identified as VFs in the laboratory-adapted reference strain H37Rv and shown to confer lysozyme resistance. C72 growth was most affected by lysozyme in vitro. A BLAST search revealed that all three SNPs of interest (C35F, P76Q, and P780R) also occurred in Tiruvallur, India, and in Uganda. Unlike C72, however, no single isolate identified through BLAST carried all three SNPs simultaneously. CAS isolates representative of three medium-sized human clusters demonstrated differential outcomes in models commonly used to estimate strain-associated virulence, supporting the idea that virulence varies within, not just across, M. tuberculosislineages. Three VF SNPs of interest were identified in two additional locations worldwide, which suggested independent selection and supported a role for these SNPs in virulence. The relevance of lysozyme resistance to strain virulence remains to be established.

Published
2015
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