Your search keyword '"Michelle S. Somerville"' showing total 4 results

1. Magnitude of venous or capillary blood-derived SARS-CoV-2-specific T cell response determines COVID-19 immunity

Author

Martin J. Scurr, George Lippiatt, Lorenzo Capitani, Kirsten Bentley, Sarah N. Lauder, Kathryn Smart, Michelle S. Somerville, Tara Rees, Richard J. Stanton, Awen Gallimore, James P. Hindley, and Andrew Godkin

Subjects

Science

Abstract

The presence of SARS-CoV-2-specific antibodies alone is not an accurate determinant of immunity. In this work, the authors investigate if whole-blood based measurement of SARS-CoV-2 specific T cell responses could prognosticate the risk of possible SARS-CoV-2 infection, and recapitulate their findings in a capillary blood-based assay.

Published

2022

2. The Ussing chamber system for measuring intestinal permeability in health and disease

Author

Amanda Thomson, Kathryn Smart, Michelle S. Somerville, Sarah N. Lauder, Gautham Appanna, James Horwood, Lawrence Sunder Raj, Brijesh Srivastava, Dharmaraj Durai, Martin J. Scurr, Åsa V. Keita, Awen M. Gallimore, and Andrew Godkin

Subjects

Intestinal permeability, Colon, Transepithelial resistance, Paracellular flux, Diseases of the digestive system. Gastroenterology, RC799-869

Abstract

Abstract Background The relationship between intestinal epithelial integrity and the development of intestinal disease is of increasing interest. A reduction in mucosal integrity has been associated with ulcerative colitis, Crohn’s disease and potentially could have links with colorectal cancer development. The Ussing chamber system can be utilised as a valuable tool for measuring gut integrity. Here we describe step-by-step methodology required to measure intestinal permeability of both mouse and human colonic tissue samples ex vivo, using the latest equipment and software. This system can be modified to accommodate other tissues. Methods An Ussing chamber was constructed and adapted to support both mouse and human tissue to measure intestinal permeability, using paracellular flux and electrical measurements. Two mouse models of intestinal inflammation (dextran sodium sulphate treatment and T regulatory cell depletion using C57BL/6-FoxP3DTR mice) were used to validate the system along with human colonic biopsy samples. Results Distinct regional differences in permeability were consistently identified within mouse and healthy human colon. In particular, mice showed increased permeability in the mid colonic region. In humans the left colon is more permeable than the right. Furthermore, inflammatory conditions induced chemically or due to autoimmunity reduced intestinal integrity, validating the use of the system. Conclusions The Ussing chamber has been used for many years to measure barrier function. However, a clear and informative methods paper describing the setup of modern equipment and step-by-step procedure to measure mouse and human intestinal permeability isn’t available. The Ussing chamber system methodology we describe provides such detail to guide investigation of gut integrity.

Published

2019

3. Data from Cancer Antigen Discovery Is Enabled by RNA Sequencing of Highly Purified Malignant and Nonmalignant Cells

Author

Andrew Godkin, Awen Gallimore, Richard J. Stanton, Alan L. Parker, Robert Andrews, Kevin E. Ashelford, Adam D. Christian, Simon Phillips, Rachel Hargest, Michael M. Davies, James A. Davies, Stephanie E.A. Burnell, Sarah L. Hulin-Curtis, Yuan Chen, Michelle S. Somerville, Emma Campbell, Alex Greenshields-Watson, and Martin J. Scurr

Abstract

Purpose:Broadly expressed, highly differentiated tumor-associated antigens (TAA) can elicit antitumor immunity. However, vaccines targeting TAAs have demonstrated disappointing clinical results, reflecting poor antigen selection and/or immunosuppressive mechanisms.Experimental Design:Here, a panel of widely expressed, novel colorectal TAAs were identified by performing RNA sequencing of highly purified colorectal tumor cells in comparison with patient-matched colonic epithelial cells; tumor cell purification was essential to reveal these genes. Candidate TAA protein expression was confirmed by IHC, and preexisting T-cell immunogenicity toward these antigens tested.Results:The most promising candidate for further development is DNAJB7 [DnaJ heat shock protein family (Hsp40) member B7], identified here as a novel cancer-testis antigen. It is expressed in many tumors and is strongly immunogenic in patients with cancers originating from a variety of sites. DNAJB7-specific T cells were capable of killing colorectal tumor lines in vitro, and the IFNγ+ response was markedly magnified by control of immunosuppression with cyclophosphamide in patients with cancer.Conclusions:This study highlights how prior methods that sequence whole tumor fractions (i.e., inclusive of alive/dead stromal cells) for antigen identification may have limitations. Through tumor cell purification and sequencing, novel candidate TAAs have been identified for future immunotherapeutic targeting.

Published

2023

4. Supplementary Figures from Cancer Antigen Discovery Is Enabled by RNA Sequencing of Highly Purified Malignant and Nonmalignant Cells

Author

Andrew Godkin, Awen Gallimore, Richard J. Stanton, Alan L. Parker, Robert Andrews, Kevin E. Ashelford, Adam D. Christian, Simon Phillips, Rachel Hargest, Michael M. Davies, James A. Davies, Stephanie E.A. Burnell, Sarah L. Hulin-Curtis, Yuan Chen, Michelle S. Somerville, Emma Campbell, Alex Greenshields-Watson, and Martin J. Scurr

Abstract

Supplementary Figures 1-7

Published

2023