Your search keyword '"Lynch, Seodhna M."' showing total 11 results

1. Precision Oncology, Artificial Intelligence, and Novel Therapeutic Advancements in the Diagnosis, Prevention, and Treatment of Cancer: Highlights from the 59th Irish Association for Cancer Research (IACR) Annual Conference

Author

Lynch, Seodhna M., primary, Heeran, Aisling B., additional, Burke, Caoimbhe, additional, Lynam-Lennon, Niamh, additional, Eustace, Alex J., additional, Dean, Kellie, additional, Robson, Tracy, additional, Rahman, Arman, additional, and Marcone, Simone, additional

Published

2024

2. Potential Plasma Proteins (LGALS9, LAMP3, PRSS8 and AGRN) as Predictors of Hospitalisation Risk in COVID-19 Patients.

Author

McLarnon, Thomas, McDaid, Darren, Lynch, Seodhna M., Cooper, Eamonn, McLaughlin, Joseph, McGilligan, Victoria E., Watterson, Steven, Shukla, Priyank, Zhang, Shu-Dong, Bucholc, Magda, English, Andrew, Peace, Aaron, O'Kane, Maurice, Kelly, Martin, Bhavsar, Manav, Murray, Elaine K., Gibson, David S., Walsh, Colum P., Bjourson, Anthony J., and Rai, Taranjit Singh

Subjects

MACHINE learning, SARS-CoV-2, SUPPORT vector machines, COVID-19 pandemic, BLOOD proteins, COVID-19

Abstract

Background: The COVID-19 pandemic, caused by the novel coronavirus SARS-CoV-2, has posed unprecedented challenges to healthcare systems worldwide. Here, we have identified proteomic and genetic signatures for improved prognosis which is vital for COVID-19 research. Methods: We investigated the proteomic and genomic profile of COVID-19-positive patients (n = 400 for proteomics, n = 483 for genomics), focusing on differential regulation between hospitalised and non-hospitalised COVID-19 patients. Signatures had their predictive capabilities tested using independent machine learning models such as Support Vector Machine (SVM), Random Forest (RF) and Logistic Regression (LR). Results: This study has identified 224 differentially expressed proteins involved in various inflammatory and immunological pathways in hospitalised COVID-19 patients compared to non-hospitalised COVID-19 patients. LGALS9 (p-value < 0.001), LAMP3 (p-value < 0.001), PRSS8 (p-value < 0.001) and AGRN (p-value < 0.001) were identified as the most statistically significant proteins. Several hundred rsIDs were queried across the top 10 significant signatures, identifying three significant SNPs on the FSTL3 gene showing a correlation with hospitalisation status. Conclusions: Our study has not only identified key signatures of COVID-19 patients with worsened health but has also demonstrated their predictive capabilities as potential biomarkers, which suggests a staple role in the worsened health effects caused by COVID-19. [ABSTRACT FROM AUTHOR]

Published

2024

3. Genomic, Proteomic and Phenotypic Biomarkers of COVID-19 Severity: Protocol for a Retrospective Observational Study (Preprint)

Author

English, Andrew, primary, McDaid, Darren, additional, Lynch, Seodhna M, additional, McLaughlin, Joseph, additional, Cooper, Eamonn, additional, Wingfield, Benjamin, additional, Kelly, Martin, additional, Bhavsar, Manav, additional, McGilligan, Victoria, additional, Irwin, Rachelle E, additional, Bucholc, Magda, additional, Zhang, Shu-Dong, additional, Shukla, Priyank, additional, Rai, Taranjit Singh, additional, Bjourson, Anthony J, additional, Murray, Elaine, additional, Gibson, David S, additional, and Walsh, Colum, additional

Published

2024

4. An investigation into the role of microRNAs in prostate cancer

Author

Lynch, Seodhna M.

Subjects

616.99

Abstract

In prostate cancer (PCa), abnormal expression of several microRNAs (miRNAs) has been previously reported. Increasing evidence also shows that aberrant epigenetic regulation of miRNAs is a contributing factor to their altered expression in cancer. In this thesis we investigate the expression ofa panel ofmiRNAs (miR-24, miR-200c, miR-141, miR-138, miR- 205 and miR-29a) in PCa and whether their expression is related to DNA methylation status. PCR analysis of the selected miRNAs was performed in PCa cell lines and in archived prostate biopsy specimens. The biological significance of the selected miRNAs expression in prostate cancer cells was assessed by a series of in vitro bioassays and the effect on proposed targets was investigated. CpG methylation analysis was performed by COBRA and pyrosequencing for miR-200c, miR-141, miR-13 8 and miR-205 in PCa cell lines and in clinical specimens. The effect on methylation status in cells treated with demethylating agents including Decitabine (5- aza-2'deoxycytidine), knockdown of DNA methyltransferase 1 (DNMTl) and Genistein was also examined. miR-24 expression was found to be down-regulated in PCa and showed an inverse correlation with p27 (CDKNIB) and p16 (CDK2NA) with results confirming these as targets ofmiR-24 in PCa. miR-200c and miR-141 expression levels across PCa cell lines and prostate biopsy tissue inversely correlated with the methylation status of the miR-200c/miR-141 promoter. Demethylating treatments resulted in restoration of expression suggesting their expression is regulated by methylation with DNMT3A and TETlITET3 identified as target genes of miR- 200c and miR-141 respectively. miR-138 expression was down-regulated in PCa and was identified to target RARA, although no correlation was found between expression and methylation levels. miR-205 was shown to be down-regulated in PCa and showed an inverse correlation between expression and methylation. Demethylation treatments suggested miR-205 expression is under epigenetic control. miR-29a expression was also generally down-regulated in PCa. The findings provide evidence that these miRNAs are abnormally expressed in PCa, which impacts upon cell behaviour through regulation of target genes. Furthermore, some of the selected miRNAs appear to be under epigenetic regulation in PCa cells. The results present evidence that profiling their expression and methylation status may have potential as a novel biomarker or focus of therapeutic intervention in the diagnosis and prognosis of PCa.

Published

2016

5. Serum levels of miR-199a-5p correlates with blood pressure in premature cardiovascular disease patients homozygous for the MTHFR 677C > T polymorphism

Author

Lynch, Seodhna M., Ward, Mary, McNulty, Helene, Angel, C. Zoe, Horigan, Geraldine, Strain, J.J., Purvis, John, Tackett, Mike, and McKenna, Declan J.

Published

2020

6. Genomic, Proteomic, and Phenotypic Biomarkers of COVID-19 Severity: Protocol for a Retrospective Observational Study

Author

English, Andrew, McDaid, Darren, Lynch, Seodhna M., McLaughlin, Joseph, Cooper, Eamonn, Wingfield, Benjamin, Kelly, Martin, Bhavsar, Manav, McGilligan, Victoria, Irwin, Rachelle E., Bucholc, Magda, Zhang, Shu-Dong, Shukla, Priyank, Rai, Taranjit Singh, Bjourson, Anthon J., Murray, Elaine, Gibson, David S., Walsh, Colum, English, Andrew, McDaid, Darren, Lynch, Seodhna M., McLaughlin, Joseph, Cooper, Eamonn, Wingfield, Benjamin, Kelly, Martin, Bhavsar, Manav, McGilligan, Victoria, Irwin, Rachelle E., Bucholc, Magda, Zhang, Shu-Dong, Shukla, Priyank, Rai, Taranjit Singh, Bjourson, Anthon J., Murray, Elaine, Gibson, David S., and Walsh, Colum

Abstract

Background: Health organizations and countries around the world have found it difficult to control the spread of COVID-19. To minimize the future impact on the UK National Health Service and improve patient care, there is a pressing need to identify individuals who are at a higher risk of being hospitalized because of severe COVID-19. Early targeted work was successful in identifying angiotensin-converting enzyme -2 receptors and type II transmembrane serine protease dependency as drivers of severe infection. Although a targeted approach highlights key pathways, a multiomics approach will provide a clearer and more comprehensive picture of severe COVID-19 etiology and progression. Objective: The COVID-19 Response Study aims to carry out an integrated multiomics analysis to identify biomarkers in blood and saliva that could contribute to host susceptibility to SARS-CoV-2 and the development of severe COVID-19. Methods: The COVID-19 Response Study aims to recruit 1000 people who recovered from SARS-CoV-2 infection in both community and hospital settings on the island of Ireland. This protocol describes the retrospective observational study component carried out in Northern Ireland (NI; Cohort A); the Republic of Ireland cohort will be described separately. For all NI participants (n=519), SARS-CoV-2 infection has been confirmed by reverse transcription -quantitative polymerase chain reaction. A prospective Cohort B of 40 patients is also being followed up at 1, 3, 6, and 12 months postinfection to assess longitudinal symptom frequency and immune response. Data will be sourced from whole blood, saliva samples, and clinical data from the electronic care records, the general health questionnaire, and a 12 -item general health questionnaire mental health survey. Saliva and blood samples were processed to extract DNA and RNA before whole-genome sequencing, RNA sequencing, DNA methylation analysis, microbiome analysis, 16S ribosomal RNA gene sequencing, and proteomic analys, Funding Agencies|Department for the Economy Northern Ireland; Opportunity-Led Research Awards; HSC Research and Development Division, Public Health Agency [COM/5618/20, COM/5631/20]; United Kingdom Research and Innovation

Published

2024

7. Mapping the Immune Landscape in Metastatic Melanoma Reveals Localized Cell–Cell Interactions That Predict Immunotherapy Response

Author

Antoranz, Asier, primary, Van Herck, Yannick, additional, Bolognesi, Maddalena M., additional, Lynch, Seodhna M., additional, Rahman, Arman, additional, Gallagher, William M., additional, Boecxstaens, Veerle, additional, Marine, Jean-Christophe, additional, Cattoretti, Giorgio, additional, van den Oord, Joost J., additional, De Smet, Frederik, additional, Bechter, Oliver, additional, and Bosisio, Francesca M., additional

Published

2022

8. Mapping the Immune Landscape in Metastatic Melanoma Reveals Localized Cell-Cell Interactions That Predict Immunotherapy Response

Author

Antoranz, A, Van Herck, Y, Bolognesi, M, Lynch, S, Rahman, A, Gallagher, W, Boecxstaens, V, Marine, J, Cattoretti, G, van den Oord, J, De Smet, F, Bechter, O, Bosisio, F, Antoranz, Asier, Van Herck, Yannick, Bolognesi, Maddalena M, Lynch, Seodhna M, Rahman, Arman, Gallagher, William M, Boecxstaens, Veerle, Marine, Jean-Christophe, Cattoretti, Giorgio, van den Oord, Joost J, De Smet, Frederik, Bechter, Oliver, Bosisio, Francesca M, Antoranz, A, Van Herck, Y, Bolognesi, M, Lynch, S, Rahman, A, Gallagher, W, Boecxstaens, V, Marine, J, Cattoretti, G, van den Oord, J, De Smet, F, Bechter, O, Bosisio, F, Antoranz, Asier, Van Herck, Yannick, Bolognesi, Maddalena M, Lynch, Seodhna M, Rahman, Arman, Gallagher, William M, Boecxstaens, Veerle, Marine, Jean-Christophe, Cattoretti, Giorgio, van den Oord, Joost J, De Smet, Frederik, Bechter, Oliver, and Bosisio, Francesca M

Abstract

While immune checkpoint-based immunotherapy (ICI) shows promising clinical results in patients with cancer, only a subset of patients responds favorably. Response to ICI is dictated by complex networks of cellular interactions between malignant and nonmalignant cells. Although insights into the mechanisms that modulate the pivotal antitumoral activity of cytotoxic T cells (Tcy) have recently been gained, much of what has been learned is based on single-cell analyses of dissociated tumor samples, resulting in a lack of critical information about the spatial distribution of relevant cell types. Here, we used multiplexed IHC to spatially characterize the immune landscape of metastatic melanoma from responders and nonresponders to ICI. Such high-dimensional pathology maps showed that Tcy gradually evolve toward an exhausted phenotype as they approach and infiltrate the tumor. Moreover, a key cellular interaction network functionally linked Tcy and PD-L1+ macrophages. Mapping the respective spatial distributions of these two cell populations predicted response to anti-PD-1 immunotherapy with high confidence. These results suggest that baseline measurements of the spatial context should be integrated in the design of predictive biomarkers to identify patients likely to benefit from ICI. SIGNIFICANCE: This study shows that spatial characterization can address the challenge of finding efficient biomarkers, revealing that localization of macrophages and T cells in melanoma predicts patient response to ICI. See related commentary by Smalley and Smalley, p. 3198.

Published

2022

9. Role of Senescence and Aging in SARS-CoV-2 Infection and COVID-19 Disease

Author

Lynch, Seodhna M., primary, Guo, Guangran, additional, Gibson, David S., additional, Bjourson, Anthony J., additional, and Rai, Taranjit Singh, additional

Published

2021

10. Advances in tissue-based imaging: impact on oncology research and clinical practice

Author

Rahman, Arman, primary, Jahangir, Chowdhury, additional, Lynch, Seodhna M., additional, Alattar, Nebras, additional, Aura, Claudia, additional, Russell, Niamh, additional, Lanigan, Fiona, additional, and Gallagher, William M., additional

Published

2020

11. Regulation of miR‐200c and miR‐141 by Methylation in Prostate Cancer

Author

Lynch, Seodhna M., O'Neill, Karla M., McKenna, Michael M., Walsh, Colum P., and McKenna, Declan J.

Subjects

Male, miR‐200c, DNA methylation, microRNA, Urology, Prostatic Neoplasms, Original Articles, urologic and male genital diseases, prostate cancer, miR-200c, Epigenesis, Genetic, miR-141, MicroRNAs, Oncology, SDG 3 - Good Health and Well-being, Cell Line, Tumor, miR‐141, Animals, Humans, Original Article, Cattle, Cell Proliferation

Abstract

BACKGROUND In prostate cancer (PCa), abnormal expression of several microRNAs (miRNAs) has been previously reported. Increasing evidence shows that aberrant epigenetic regulation of miRNAs is a contributing factor to their altered expression in cancer. In this study, we investigate whether expression of miR‐200c and miR‐141 in PCa is related to the DNA methylation status of their promoter. METHODS PCR analysis of miR‐200c and miR‐141, and CpG methylation analysis of their common promoter, was performed in PCa cell‐lines and in archived prostate biopsy specimens. The biological significance of miR‐200c and miR‐141 expression in prostate cancer cells was assessed by a series of in vitro bioassays and the effect on proposed targets DNMT3A and TET1/TET3 was investigated. The effect on promoter methylation status in cells treated with demethylating agents was also examined. RESULTS miR‐200c and miR‐141 are both highly elevated in LNCaP, 22RV1, and DU145 cells, but significantly reduced in PC3 cells. This correlates inversely with the methylation status of the miR‐200c/miR‐141 promoter, which is unmethylated in LNCaP, 22RV1, and DU145 cells, but hypermethylated in PC3. In PC3 cells, miR‐200c and miR‐141 expression is subsequently elevated by treatment with the demethylating drug decitabine (5‐aza‐2′deoxycytidine) and by knockdown of DNA methyltransferase 1 (DNMT1), suggesting their expression is regulated by methylation. Expression of miR‐200c and miR‐141 in prostate biopsy tissue was inversely correlated with methylation in promoter CpG sites closest to the miR‐200c/miR‐141 loci. In vitro, over‐expression of miR‐200c in PC3 cells inhibited growth and clonogenic potential, as well as inducing apoptosis. Expression of the genes DNMT3A and TET1/TET3 were down‐regulated by miR‐200c and miR‐141 respectively. Finally, treatment with the soy isoflavone genistein caused demethylation of the promoter CpG sites closest to the miR‐200c/miR‐141 loci resulting in increased miR‐200c expression. CONCLUSIONS Our findings provide evidence that miR‐200c and miR‐141 are under epigenetic regulation in PCa cells. We propose that profiling their expression and methylation status may have potential as a novel biomarker or focus of therapeutic intervention in the diagnosis and prognosis of PCa. Prostate 76:1146–1159, 2016. © 2016 The Authors. The Prostate published by Wiley Periodicals, Inc.

Published

2016