Your search keyword '"Nicola Logan"' showing total 3 results

1. Reduced neutralisation of the Delta (B.1.617.2) SARS-CoV-2 variant of concern following vaccination.

Author

Chris Davis, Nicola Logan, Grace Tyson, Richard Orton, William T Harvey, Jonathan S Perkins, Guy Mollett, Rachel M Blacow, COVID-19 Genomics UK (COG-UK) Consortium, Thomas P Peacock, Wendy S Barclay, Peter Cherepanov, Massimo Palmarini, Pablo R Murcia, Arvind H Patel, David L Robertson, John Haughney, Emma C Thomson, Brian J Willett, and COVID-19 DeplOyed VaccinE (DOVE) Cohort Study investigators

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Abstract

Vaccines are proving to be highly effective in controlling hospitalisation and deaths associated with SARS-CoV-2 infection but the emergence of viral variants with novel antigenic profiles threatens to diminish their efficacy. Assessment of the ability of sera from vaccine recipients to neutralise SARS-CoV-2 variants will inform the success of strategies for minimising COVID19 cases and the design of effective antigenic formulations. Here, we examine the sensitivity of variants of concern (VOCs) representative of the B.1.617.1 and B.1.617.2 (first associated with infections in India) and B.1.351 (first associated with infection in South Africa) lineages of SARS-CoV-2 to neutralisation by sera from individuals vaccinated with the BNT162b2 (Pfizer/BioNTech) and ChAdOx1 (Oxford/AstraZeneca) vaccines. Across all vaccinated individuals, the spike glycoproteins from B.1.617.1 and B.1.617.2 conferred reductions in neutralisation of 4.31 and 5.11-fold respectively. The reduction seen with the B.1.617.2 lineage approached that conferred by the glycoprotein from B.1.351 (South African) variant (6.29-fold reduction) that is known to be associated with reduced vaccine efficacy. Neutralising antibody titres elicited by vaccination with two doses of BNT162b2 were significantly higher than those elicited by vaccination with two doses of ChAdOx1. Fold decreases in the magnitude of neutralisation titre following two doses of BNT162b2, conferred reductions in titre of 7.77, 11.30 and 9.56-fold respectively to B.1.617.1, B.1.617.2 and B.1.351 pseudoviruses, the reduction in neutralisation of the delta variant B.1.617.2 surpassing that of B.1.351. Fold changes in those vaccinated with two doses of ChAdOx1 were 0.69, 4.01 and 1.48 respectively. The accumulation of mutations in these VOCs, and others, demonstrate the quantifiable risk of antigenic drift and subsequent reduction in vaccine efficacy. Accordingly, booster vaccines based on updated variants are likely to be required over time to prevent productive infection. This study also suggests that two dose regimes of vaccine are required for maximal BNT162b2 and ChAdOx1-induced immunity.

Published

2021

2. Ym1 induces RELMα and rescues IL-4Rα deficiency in lung repair during nematode infection.

Author

Tara E Sutherland, Dominik Rückerl, Nicola Logan, Sheelagh Duncan, Thomas A Wynn, and Judith E Allen

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Abstract

Ym1 and RELMα are established effector molecules closely synonymous with Th2-type inflammation and associated pathology. Here, we show that whilst largely dependent on IL-4Rα signaling during a type 2 response, Ym1 and RELMα also have IL-4Rα-independent expression patterns in the lung. Notably, we found that Ym1 has opposing effects on type 2 immunity during nematode infection depending on whether it is expressed at the time of innate or adaptive responses. During the lung migratory stage of Nippostrongylus brasiliensis, Ym1 promoted the subsequent reparative type 2 response but once that response was established, IL-4Rα-dependent Ym1 was important for limiting the magnitude of type 2 cytokine production from both CD4+ T cells and innate lymphoid cells in the lung. Importantly, our study demonstrates that delivery of Ym1 to IL-4Rα deficient animals drives RELMα production and overcomes lung repair deficits in mice deficient in type 2 immunity. Together, Ym1 and RELMα, exhibit time and dose-dependent interactions that determines the outcome of lung repair during nematode infection.

Published

2018

3. Ym1 induces RELMα and rescues IL-4Rα deficiency in lung repair during nematode infection

Author

Tara E, Sutherland, Dominik, Rückerl, Nicola, Logan, Sheelagh, Duncan, Thomas A, Wynn, and Judith E, Allen

Subjects

Physiology, Imaging Techniques, Immune Cells, Immunology, Receptors, Cell Surface, Research and Analysis Methods, Diagnostic Radiology, Mice, White Blood Cells, Diagnostic Medicine, Animal Cells, Lectins, Immune Physiology, Tissue Repair, Medicine and Health Sciences, Parasitic Diseases, Animals, Nematode Infections, Lung, Immune Response, Strongylida Infections, Mice, Knockout, Staining, Mice, Inbred BALB C, Innate Immune System, Blood Cells, T Cells, Radiology and Imaging, Biology and Life Sciences, Cell Staining, Cell Biology, Molecular Development, beta-N-Acetylhexosaminidases, Pulmonary Imaging, Mice, Inbred C57BL, Specimen Preparation and Treatment, Immune System, Intercellular Signaling Peptides and Proteins, Cytokines, Nippostrongylus, Cellular Types, Physiological Processes, Signal Transduction, Research Article, Developmental Biology

Abstract

Ym1 and RELMα are established effector molecules closely synonymous with Th2-type inflammation and associated pathology. Here, we show that whilst largely dependent on IL-4Rα signaling during a type 2 response, Ym1 and RELMα also have IL-4Rα-independent expression patterns in the lung. Notably, we found that Ym1 has opposing effects on type 2 immunity during nematode infection depending on whether it is expressed at the time of innate or adaptive responses. During the lung migratory stage of Nippostrongylus brasiliensis, Ym1 promoted the subsequent reparative type 2 response but once that response was established, IL-4Rα-dependent Ym1 was important for limiting the magnitude of type 2 cytokine production from both CD4+ T cells and innate lymphoid cells in the lung. Importantly, our study demonstrates that delivery of Ym1 to IL-4Rα deficient animals drives RELMα production and overcomes lung repair deficits in mice deficient in type 2 immunity. Together, Ym1 and RELMα, exhibit time and dose-dependent interactions that determines the outcome of lung repair during nematode infection., Author summary Immune cells produce molecules that limit infections, attract other immune cells or repair tissue damage. Two such molecules, Ym1 and RELMα, are abundantly produced in mice during infection and injury. Related human molecules are strongly associated with many chronic diseases and yet we know very little about their function. Nippostrongylus brasiliensis is a parasitic worm that migrates through the lung causing tissue damage, which is accompanied by a strong early inflammatory response. Subsequently the lung is rapidly repaired, a process that requires an immune response that is characterised by the production of large amounts of Ym1 and RELMα. Here we show that during the early lung injury phase of infection, Ym1 helps direct the immune response towards repair but once repair has been initiated, Ym1 acts to limit excessive immune activation. Additionally, Ym1 enhances RELMα production in the lung and together, these molecules contribute to lung repair. Therefore Ym1 and RELMα have distinct regulatory functions depending on the stage of injury or infection, and additionally can act directly to repair injured tissues. These findings demonstrate the diverse functions of Ym1 and RELMα with wider implications toward understanding the relationship between host immune responses and tissue repair.

Published

2017