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Your search keyword '"Zwierzyna, Magdalena"' showing total 29 results
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29 results on '"Zwierzyna, Magdalena"'

1. Integrative bioinformatics and graph-based methods for predicting adverse effects of developmental drugs

Author

Zwierzyna, Magdalena

Abstract

Adverse drug effects are complex phenomena that involve the interplay between drug molecules and their protein targets at various levels of biological organisation, from molecular to organismal. Many factors are known to contribute toward the safety profile of a drug, including the chemical properties of the drug molecule itself, the biological properties of drug targets and other proteins that are involved in pharmacodynamics and pharmacokinetics aspects of drug action, and the characteristics of the intended patient population. A multitude of scattered publicly available resources exist that cover these important aspects of drug activity. These include manually curated biological databases, high-throughput experimental results from gene expression and human genetics resources as well as drug labels and registered clinical trial records. This thesis proposes an integrated analysis of these disparate sources of information to help bridge the gap between the molecular and the clinical aspects of drug action. For example, to address the commonly held assumption that narrowly expressed proteins make safer drug targets, an integrative data-driven analysis was conducted to systematically investigate the relationship between the tissue expression profile of drug targets and the organs affected by clinically observed adverse drug reactions. Similarly, human genetics data were used extensively throughout the thesis to compare adverse symptoms induced by drug molecules with the phenotypes associated with the genes encoding their target proteins. One of the main outcomes of this thesis was the generation of a large knowledge graph, which incorporates diverse molecular and phenotypic data in a structured network format. To leverage the integrated information, two graph-based machine learning methods were developed to predict a wide range of adverse drug effects caused by approved and developmental therapies.

Published
2021

2. Identifying and visualising multimorbidity and comorbidity patterns in patients in the English National Health Service: a population-based study

Author

Alexander, Daniel C, Asiimwe, Innocent G, Ball, Simon, Bennett, Frances, Borges, Maria Carolina, Butterworth, Adam, Chaturvedi, Nishi, Chopade, Sandesh, Clarkson, Christopher, Cox, Martin, Dale, Caroline, Denaxas, Spiros, Dunca, Diana, Engmann, Jorgen E, Fernandez-Sanles, Alba, Finan, Chris, Fitzpatrick, Natalie, Gallagher, Jean, Gonzalez-Izquierdo, Arturo, Gratton, Jasmine, Gross, Christian, Hemingway, Harry, Henry, Albert, Hidajat, Mira, Hingorani, Aroon, Hukerikar, Nikita, Jorgensen, Andrea, Joshi, Roshni, Katsoulis, Michail, Kuan, Valerie, Kumar, Rashmi, Lai, Alvina G, Langenberg, Claudia, Lawlor, Deborah, Mancini, Mary, Miller, Diane, Ogden, Margaret, Ozyigit, Eda B, Patel, Shilpa, Pirmohamed, Munir, Roberts, Amanda, Ryan, David, Schmidt, Amand F, Shah, Anoop D, Shah, Tina, Sofat, Reecha, Takhar, Rohan, Torralbo, Ana, Ullah, Ayath, Walker, Lauren E, Warwick, Alasdair, Wheeler, Eleanor, Wright, Victoria L, Wu, Honghan, Zwierzyna, Magdalena, Patalay, Praveetha, Nitsch, Dorothea, Mathur, Rohini, Partridge, Linda, Wong, Ian C K, Hingorani, Melanie, and Hingorani, Aroon D

Published
2023
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3. Cholesteryl ester transfer protein (CETP) as a drug target for cardiovascular disease

Author

Schmidt, Amand F., Hunt, Nicholas B., Gordillo-Marañón, Maria, Charoen, Pimphen, Drenos, Fotios, Kivimaki, Mika, Lawlor, Deborah A., Giambartolomei, Claudia, Papacosta, Olia, Chaturvedi, Nishi, Bis, Joshua C., O’Donnell, Christopher J., Wannamethee, Goya, Wong, Andrew, Price, Jackie F., Hughes, Alun D., Gaunt, Tom R., Franceschini, Nora, Mook-Kanamori, Dennis O., Zwierzyna, Magdalena, Sofat, Reecha, Hingorani, Aroon D., and Finan, Chris

Published
2021
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4. Validation of lipid-related therapeutic targets for coronary heart disease prevention using human genetics

Author

Gordillo-Marañón, María, Zwierzyna, Magdalena, Charoen, Pimphen, Drenos, Fotios, Chopade, Sandesh, Shah, Tina, Engmann, Jorgen, Chaturvedi, Nishi, Papacosta, Olia, Wannamethee, Goya, Wong, Andrew, Sofat, Reecha, Kivimaki, Mika, Price, Jackie F., Hughes, Alun D., Gaunt, Tom R., Lawlor, Deborah A., Gaulton, Anna, Hingorani, Aroon D., Schmidt, Amand F., and Finan, Chris

Published
2021
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7. Big Data in Drug Discovery

Author

Brown, Nathan, primary, Cambruzzi, Jean, additional, Cox, Peter J., additional, Davies, Mark, additional, Dunbar, James, additional, Plumbley, Dean, additional, Sellwood, Matthew A., additional, Sim, Aaron, additional, Williams-Jones, Bryn I., additional, Zwierzyna, Magdalena, additional, and Sheppard, David W., additional

Published
2018
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8. Identifying and visualising multimorbidity and comorbidity patterns in patients in the English National Health Service: a population-based study

Author

Kuan, Valerie, primary, Denaxas, Spiros, additional, Patalay, Praveetha, additional, Nitsch, Dorothea, additional, Mathur, Rohini, additional, Gonzalez-Izquierdo, Arturo, additional, Sofat, Reecha, additional, Partridge, Linda, additional, Roberts, Amanda, additional, Wong, Ian C K, additional, Hingorani, Melanie, additional, Chaturvedi, Nishi, additional, Hemingway, Harry, additional, Hingorani, Aroon D, additional, Alexander, Daniel C, additional, Asiimwe, Innocent G, additional, Ball, Simon, additional, Bennett, Frances, additional, Borges, Maria Carolina, additional, Butterworth, Adam, additional, Chopade, Sandesh, additional, Clarkson, Christopher, additional, Cox, Martin, additional, Dale, Caroline, additional, Dunca, Diana, additional, Engmann, Jorgen E, additional, Fernandez-Sanles, Alba, additional, Finan, Chris, additional, Fitzpatrick, Natalie, additional, Gallagher, Jean, additional, Gratton, Jasmine, additional, Gross, Christian, additional, Henry, Albert, additional, Hidajat, Mira, additional, Hingorani, Aroon, additional, Hukerikar, Nikita, additional, Jorgensen, Andrea, additional, Joshi, Roshni, additional, Katsoulis, Michail, additional, Kuan, Valerie, additional, Kumar, Rashmi, additional, Lai, Alvina G, additional, Langenberg, Claudia, additional, Lawlor, Deborah, additional, Mancini, Mary, additional, Miller, Diane, additional, Ogden, Margaret, additional, Ozyigit, Eda B, additional, Patel, Shilpa, additional, Pirmohamed, Munir, additional, Ryan, David, additional, Schmidt, Amand F, additional, Shah, Anoop D, additional, Shah, Tina, additional, Takhar, Rohan, additional, Torralbo, Ana, additional, Ullah, Ayath, additional, Walker, Lauren E, additional, Warwick, Alasdair, additional, Wheeler, Eleanor, additional, Wright, Victoria L, additional, Wu, Honghan, additional, and Zwierzyna, Magdalena, additional

Published
2023
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9. Biological mechanisms of aging predict age-related disease co-occurrence in patients

Author

Fraser, Helen C., Kuan, Valerie, Johnen, Ronja, Zwierzyna, Magdalena, Hingorani, Aroon D., Beyer, Andreas, Partridge, Linda, Fraser, Helen C., Kuan, Valerie, Johnen, Ronja, Zwierzyna, Magdalena, Hingorani, Aroon D., Beyer, Andreas, and Partridge, Linda

Abstract

Genetic, environmental, and pharmacological interventions into the aging process can confer resistance to multiple age-related diseases in laboratory animals, including rhesus monkeys. These findings imply that individual mechanisms of aging might contribute to the co-occurrence of age-related diseases in humans and could be targeted to prevent these conditions simultaneously. To address this question, we text mined 917,645 literature abstracts followed by manual curation and found strong, non-random associations between age-related diseases and aging mechanisms in humans, confirmed by gene set enrichment analysis of GWAS data. Integration of these associations with clinical data from 3.01 million patients showed that age-related diseases associated with each of five aging mechanisms were more likely than chance to be present together in patients. Genetic evidence revealed that innate and adaptive immunity, the intrinsic apoptotic signaling pathway and activity of the ERK1/2 pathway were associated with multiple aging mechanisms and diverse age-related diseases. Mechanisms of aging hence contribute both together and individually to age-related disease co-occurrence in humans and could potentially be targeted accordingly to prevent multimorbidity.

Published
2022

14. Cholesteryl ester transfer protein (CETP) as a drug target for cardiovascular disease

Author

Schmidt, Amand F, Hunt, Nicholas B, Gordillo-Marañón, Maria, Charoen, Pimphen, Drenos, Fotios, Kivimaki, Mika, Lawlor, Deborah A, Giambartolomei, Claudia, Papacosta, Olia, Chaturvedi, Nishi, Bis, Joshua C, O'Donnell, Christopher J, Wannamethee, Goya, Wong, Andrew, Price, Jackie F, Hughes, Alun D, Gaunt, Tom R, Franceschini, Nora, Mook-Kanamori, Dennis O, Zwierzyna, Magdalena, Sofat, Reecha, Hingorani, Aroon D, Finan, Chris, Schmidt, Amand F, Hunt, Nicholas B, Gordillo-Marañón, Maria, Charoen, Pimphen, Drenos, Fotios, Kivimaki, Mika, Lawlor, Deborah A, Giambartolomei, Claudia, Papacosta, Olia, Chaturvedi, Nishi, Bis, Joshua C, O'Donnell, Christopher J, Wannamethee, Goya, Wong, Andrew, Price, Jackie F, Hughes, Alun D, Gaunt, Tom R, Franceschini, Nora, Mook-Kanamori, Dennis O, Zwierzyna, Magdalena, Sofat, Reecha, Hingorani, Aroon D, and Finan, Chris

Abstract

Development of cholesteryl ester transfer protein (CETP) inhibitors for coronary heart disease (CHD) has yet to deliver licensed medicines. To distinguish compound from drug target failure, we compared evidence from clinical trials and drug target Mendelian randomization of CETP protein concentration, comparing this to Mendelian randomization of proprotein convertase subtilisin/kexin type 9 (PCSK9). We show that previous failures of CETP inhibitors are likely compound related, as illustrated by significant degrees of between-compound heterogeneity in effects on lipids, blood pressure, and clinical outcomes observed in trials. On-target CETP inhibition, assessed through Mendelian randomization, is expected to reduce the risk of CHD, heart failure, diabetes, and chronic kidney disease, while increasing the risk of age-related macular degeneration. In contrast, lower PCSK9 concentration is anticipated to decrease the risk of CHD, heart failure, atrial fibrillation, chronic kidney disease, multiple sclerosis, and stroke, while potentially increasing the risk of Alzheimer's disease and asthma. Due to distinct effects on lipoprotein metabolite profiles, joint inhibition of CETP and PCSK9 may provide added benefit. In conclusion, we provide genetic evidence that CETP is an effective target for CHD prevention but with a potential on-target adverse effect on age-related macular degeneration.

Published
2021

15. Validation of lipid-related therapeutic targets for coronary heart disease prevention using human genetics

Author

Verpleegafdeling Cardiologie, Onderzoek Precision medicine, Gordillo-Marañón, María, Zwierzyna, Magdalena, Charoen, Pimphen, Drenos, Fotios, Chopade, Sandesh, Shah, Tina, Engmann, Jorgen, Chaturvedi, Nishi, Papacosta, Olia, Wannamethee, Goya, Wong, Andrew, Sofat, Reecha, Kivimaki, Mika, Price, Jackie F., Hughes, Alun D., Gaunt, Tom R., Lawlor, Deborah A., Gaulton, Anna, Hingorani, Aroon D., Schmidt, Amand F., Finan, Chris, Verpleegafdeling Cardiologie, Onderzoek Precision medicine, Gordillo-Marañón, María, Zwierzyna, Magdalena, Charoen, Pimphen, Drenos, Fotios, Chopade, Sandesh, Shah, Tina, Engmann, Jorgen, Chaturvedi, Nishi, Papacosta, Olia, Wannamethee, Goya, Wong, Andrew, Sofat, Reecha, Kivimaki, Mika, Price, Jackie F., Hughes, Alun D., Gaunt, Tom R., Lawlor, Deborah A., Gaulton, Anna, Hingorani, Aroon D., Schmidt, Amand F., and Finan, Chris

Published
2021

16. Cholesteryl ester transfer protein (CETP) as a drug target for cardiovascular disease

Author

Onderzoek Vrouw Hart & Vaatziekten, Onderzoek Precision medicine, Schmidt, Amand F., Hunt, Nicholas B., Gordillo-Marañón, Maria, Charoen, Pimphen, Drenos, Fotios, Kivimaki, Mika, Lawlor, Deborah A., Giambartolomei, Claudia, Papacosta, Olia, Chaturvedi, Nishi, Bis, Joshua C., O’Donnell, Christopher J., Wannamethee, Goya, Wong, Andrew, Price, Jackie F., Hughes, Alun D., Gaunt, Tom R., Franceschini, Nora, Mook-Kanamori, Dennis O., Zwierzyna, Magdalena, Sofat, Reecha, Hingorani, Aroon D., Finan, Chris, Onderzoek Vrouw Hart & Vaatziekten, Onderzoek Precision medicine, Schmidt, Amand F., Hunt, Nicholas B., Gordillo-Marañón, Maria, Charoen, Pimphen, Drenos, Fotios, Kivimaki, Mika, Lawlor, Deborah A., Giambartolomei, Claudia, Papacosta, Olia, Chaturvedi, Nishi, Bis, Joshua C., O’Donnell, Christopher J., Wannamethee, Goya, Wong, Andrew, Price, Jackie F., Hughes, Alun D., Gaunt, Tom R., Franceschini, Nora, Mook-Kanamori, Dennis O., Zwierzyna, Magdalena, Sofat, Reecha, Hingorani, Aroon D., and Finan, Chris

Published
2021

19. Genetic drug target validation using Mendelian randomisation

Author

Onderzoek Precision medicine, Team Medisch, Circulatory Health, Schmidt, Amand F, Finan, Chris, Gordillo-Marañón, Maria, Asselbergs, Folkert W, Freitag, Daniel F, Patel, Riyaz S, Tyl, Benoît, Chopade, Sandesh, Faraway, Rupert, Zwierzyna, Magdalena, Hingorani, Aroon D, Onderzoek Precision medicine, Team Medisch, Circulatory Health, Schmidt, Amand F, Finan, Chris, Gordillo-Marañón, Maria, Asselbergs, Folkert W, Freitag, Daniel F, Patel, Riyaz S, Tyl, Benoît, Chopade, Sandesh, Faraway, Rupert, Zwierzyna, Magdalena, and Hingorani, Aroon D

Published
2020

20. Validation of lipid-related therapeutic targets for coronary heart disease prevention using human genetics

Author

Gordillo-Maranon, Maria, primary, Zwierzyna, Magdalena, additional, Charoen, Pimphen, additional, Drenos, Fotios, additional, Chopade, Sandesh, additional, Shah, Tina, additional, Engmann, Jorgen, additional, Casas, Juan-Pablo, additional, Chaturvedi, Nishi, additional, Papacosta, Olia, additional, Wannamethee, Goya, additional, Wong, Andrew, additional, Sofat, Reecha, additional, Kivimaki, Mika, additional, Price, Jackie, additional, Hughes, Alun, additional, Gaunt, Tom, additional, Lawlor, Debbie, additional, Gaulton, Anna, additional, Hingorani, Aroon, additional, Schmidt, Amand, additional, and Finan, Chris, additional

Published
2021
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21. Validation of lipid-related therapeutic targets for coronary heart disease prevention using human genetics

Author

Gordillo-Marañón, María, primary, Zwierzyna, Magdalena, additional, Charoen, Pimphen, additional, Drenos, Fotios, additional, Chopade, Sandesh, additional, Shah, Tina, additional, Engmann, Jorgen, additional, Casas, Juan-Pablo, additional, Chaturvedi, Nishi, additional, Papacosta, Olia, additional, Wannamethee, Goya, additional, Wong, Andrew, additional, Sofat, Reecha, additional, Kivimaki, Mika, additional, Price, Jackie F, additional, Hughes, Alun D, additional, Gaunt, Tom R, additional, Lawlor, Deborah A, additional, Gaulton, Anna, additional, Hingorani, Aroon D, additional, Schmidt, Amand F, additional, and Finan, Chris, additional

Published
2020
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22. Cholesteryl Ester Transfer Protein as a Drug Target for Cardiovascular Disease

Author

Schmidt, Amand, primary, Hunt, Nicholas, additional, Gordillo-Maranon, Maria, additional, Charoen, Pimphen, additional, Drenos, Fotios, additional, Casas, Juan-Pablo, additional, Kivimaki, Mika, additional, Franceschini, Nora, additional, Gaunt, Tom, additional, Mook-Kanamori, Dennis, additional, Hughes, Alun, additional, Lawlor, Debbie, additional, Price, Jackie, additional, Giambartolomei, Claudia, additional, Wong, Andrew, additional, Papacosta, Olia, additional, Chaturvedi, Nishi, additional, Wannamethee, Goya, additional, Bis, Joshua, additional, O'Donnell, Christopher, additional, Zwierzyna, Magdalena, additional, Sofat, Reecha, additional, Hingorani, Aroon, additional, and Finan, Chris, additional

Published
2020
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27. Identifying and visualising multimorbidity and comorbidity patterns in patients in the English National Health Service: a population-based study

Author

Kuan, Valerie, Denaxas, Spiros, Patalay, Praveetha, Nitsch, Dorothea, Mathur, Rohini, Gonzalez-Izquierdo, Arturo, Sofat, Reecha, Partridge, Linda, Roberts, Amanda, Wong, Ian C K, Hingorani, Melanie, Chaturvedi, Nishi, Hemingway, Harry, Hingorani, Aroon D, Alexander, Daniel C, Asiimwe, Innocent G, Ball, Simon, Bennett, Frances, Borges, Maria Carolina, Butterworth, Adam, Chaturvedi, Nishi, Chopade, Sandesh, Clarkson, Christopher, Cox, Martin, Dale, Caroline, Denaxas, Spiros, Dunca, Diana, Engmann, Jorgen E, Fernandez-Sanles, Alba, Finan, Chris, Fitzpatrick, Natalie, Gallagher, Jean, Gonzalez-Izquierdo, Arturo, Gratton, Jasmine, Gross, Christian, Hemingway, Harry, Henry, Albert, Hidajat, Mira, Hingorani, Aroon, Hukerikar, Nikita, Jorgensen, Andrea, Joshi, Roshni, Katsoulis, Michail, Kuan, Valerie, Kumar, Rashmi, Lai, Alvina G, Langenberg, Claudia, Lawlor, Deborah, Mancini, Mary, Miller, Diane, Ogden, Margaret, Ozyigit, Eda B, Patel, Shilpa, Pirmohamed, Munir, Roberts, Amanda, Ryan, David, Schmidt, Amand F, Shah, Anoop D, Shah, Tina, Sofat, Reecha, Takhar, Rohan, Torralbo, Ana, Ullah, Ayath, Walker, Lauren E, Warwick, Alasdair, Wheeler, Eleanor, Wright, Victoria L, Wu, Honghan, and Zwierzyna, Magdalena

Abstract

Globally, there is a paucity of multimorbidity and comorbidity data, especially for minority ethnic groups and younger people. We estimated the frequency of common disease combinations and identified non-random disease associations for all ages in a multiethnic population.

Published
2022
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