33 results on '"Dib, Lea"'
Search Results
2. Author Correction: Lipid-associated macrophages transition to an inflammatory state in human atherosclerosis, increasing the risk of cerebrovascular complications
- Author
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Dib, Lea, Koneva, Lada A., Edsfeldt, Andreas, Zurke, Yasemin-Xiomara, Sun, Jiangming, Nitulescu, Mihaela, Attar, Moustafa, Lutgens, Esther, Schmidt, Steffen, Lindholm, Marie W., Choudhury, Robin P., Cassimjee, Ismail, Lee, Regent, Handa, Ashok, Goncalves, Isabel, Sansom, Stephen N., and Monaco, Claudia
- Published
- 2023
- Full Text
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3. Publisher Correction: Lipid-associated macrophages transition to an inflammatory state in human atherosclerosis, increasing the risk of cerebrovascular complications
- Author
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Dib, Lea, Koneva, Lada A., Edsfeldt, Andreas, Zurke, Yasemin-Xiomara, Sun, Jiangming, Nitulescu, Mihaela, Attar, Moustafa, Lutgens, Esther, Schmidt, Steffen, Lindholm, Marie W., Choudhury, Robin P., Cassimjee, Ismail, Lee, Regent, Handa, Ashok, Goncalves, Isabel, Sansom, Stephen N., and Monaco, Claudia
- Published
- 2023
- Full Text
- View/download PDF
4. Constructing custom-made radiotranscriptomic signatures of vascular inflammation from routine CT angiograms: a prospective outcomes validation study in COVID-19
- Author
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Ahern, David J, Ai, Zhichao, Ainsworth, Mark, Allan, Chris, Allcock, Alice, Angus, Brian, Ansari, M Azim, Arancibia-Cárcamo, Carolina, Aschenbrenner, Dominik, Attar, Moustafa, Baillie, J Kenneth, Barnes, Eleanor, Bashford-Rogers, Rachael, Bashyal, Archana, Beer, Sally, Berridge, Georgina, Beveridge, Amy, Bibi, Sagida, Bicanic, Tihana, Blackwell, Luke, Bowness, Paul, Brent, Andrew, Brown, Andrew, Broxholme, John, Buck, David, Burnham, Katie, Byrne, Helen, Camara, Susana, Ferreira, Ivan Candido, Charles, Philip, Chen, Wentao, Chen, Yi-Ling, Chong, Amanda, Clutterbuck, Elizabeth, Coles, Mark, Conlon, Christopher, Cornall, Richard, Cribbs, Adam, Curion, Fabiola, Davenport, Emma, Davidson, Neil, Davis, Simon, Dendrou, Calliope, Dequaire, Julie, Dib, Lea, Docker, James, Dold, Christina, Dong, Tao, Downes, Damien, Drakesmith, Hal, Dunachie, Susanna, Duncan, David, Eijsbouts, Chris, Esnouf, Robert, Espinosa, Alexis, Etherington, Rachel, Fairfax, Benjamin, Fairhead, Rory, Fang, Hai, Fassih, Shayan, Felle, Sally, Fernandez Mendoza, Maria, Ferreira, Ricardo, Fischer, Roman, Foord, Thomas, Forrow, Aden, Frater, John, Fries, Anastasia, Gallardo Sanchez, Veronica, Garner, Lucy, Geeves, Clementine, Georgiou, Dominique, Godfrey, Leila, Golubchik, Tanya, Gomez Vazquez, Maria, Green, Angie, Harper, Hong, Harrington, Heather, Heilig, Raphael, Hester, Svenja, Hill, Jennifer, Hinds, Charles, Hird, Clare, Ho, Ling-Pei, Hoekzema, Renee, Hollis, Benjamin, Hughes, Jim, Hutton, Paula, Jackson-Wood, Matthew, Jainarayanan, Ashwin, James-Bott, Anna, Jansen, Kathrin, Jeffery, Katie, Jones, Elizabeth, Jostins, Luke, Kerr, Georgina, Kim, David, Klenerman, Paul, Knight, Julian, Kumar, Vinod, Kumar Sharma, Piyush, Kurupati, Prathiba, Kwok, Andrew, Lee, Angela, Linder, Aline, Lockett, Teresa, Lonie, Lorne, Lopopolo, Maria, Lukoseviciute, Martyna, Luo, Jian, Marinou, Spyridoula, Marsden, Brian, Martinez, Jose, Matthews, Philippa, Mazurczyk, Michalina, McGowan, Simon, McKechnie, Stuart, Mead, Adam, Mentzer, Alexander, Mi, Yuxin, Monaco, Claudia, Montadon, Ruddy, Napolitani, Giorgio, Nassiri, Isar, Novak, Alex, O'Brien, Darragh, O'Connor, Daniel, O'Donnell, Denise, Ogg, Graham, Overend, Lauren, Park, Inhye, Pavord, Ian, Peng, Yanchun, Penkava, Frank, Pereira Pinho, Mariana, Perez, Elena, Pollard, Andrew, Powrie, Fiona, Psaila, Bethan, Quan, T Phuong, Repapi, Emmanouela, Revale, Santiago, Silva-Reyes, Laura, Richard, Jean-Baptiste, Rich-Griffin, Charlotte, Ritter, Thomas, Rollier, Christine, Rowland, Matthew, Ruehle, Fabian, Salio, Mariolina, Sansom, Stephen Nicholas, Sanches Peres, Raphael, Santos Delgado, Alberto, Sauka-Spengler, Tatjana, Schwessinger, Ron, Scozzafava, Giuseppe, Screaton, Gavin, Seigal, Anna, Semple, Malcolm, Sergeant, Martin, Simoglou Karali, Christina, Sims, David, Skelly, Donal, Slawinski, Hubert, Sobrinodiaz, Alberto, Sousos, Nikolaos, Stafford, Lizzie, Stockdale, Lisa, Strickland, Marie, Sumray, Otto, Sun, Bo, Taylor, Chelsea, Taylor, Stephen, Taylor, Adan, Thongjuea, Supat, Thraves, Hannah, Todd, John, Tomic, Adriana, Tong, Orion, Trebes, Amy, Trzupek, Dominik, Tucci, Felicia Anna, Turtle, Lance, Udalova, Irina, Uhlig, Holm, van Grinsven, Erinke, Vendrell, Iolanda, Verheul, Marije, Voda, Alexandru, Wang, Guanlin, Wang, Lihui, Wang, Dapeng, Watkinson, Peter, Watson, Robert, Weinberger, Michael, Whalley, Justin, Witty, Lorna, Wray, Katherine, Xue, Luzheng, Yuen Yeung, Hing, Yin, Zixi, Young, Rebecca, Youngs, Jonathan, Zhang, Ping, Zurke, Yasemin-Xiomara, Banning, Adrian, Antonopoulos, Alexios, Bajaj, Amrita, Kelion, Andrew, Deshpande, Aparna, Kardos, Attila, Hudson, Benjamin, Koo, Bon-Kwon, Shirodaria, Cheerag, Xie, Cheng, Kotanidis, Christos, Mahon, Ciara, Berry, Colin, Adlam, David, Newby, David, Connolly, Derek, Scaletta, Diane, Alexander, Donna, Nicol, Ed, McAlindon, Elisa, Oikonomou, Evangelos, Pugliese, Francesca, Pontone, Gianluca, Benedetti, Giulia, He, Guo-Wei, West, Henry, Kondo, Hidekazu, Benedek, Imre, Das, Intrajeet, Deanfield, John, Graby, John, Greenwood, John, Rodrigues, Jonathan, Ge, Junbo, Channon, Keith, Fabritz, Larissa, Fan, Li-Juan, Kingham, Lucy, Guglielmo, Marco, Lyasheva, Maria, Schmitt, Matthias, Beer, Meinrad, Anderson, Michelle, Desai, Milind, Marwan, Mohamed, Takahashi, Naohiko, Mehta, Nehal, Dai, Neng, Screaton, Nicholas, Sabharwal, Nikant, Maurovich-Horvat, Pál, Rao, Praveen, Kotronias, Rafail, Kharbanda, Rajesh, Preston, Rebecca, Wood, Richard, Blankstein, Ron, Rajani, Ronak, Mirsadraee, Saeed, Munir, Shahzad, Thomas, Sheena, Neubauer, Stefan, Klömpken, Steffen, Petersen, Steffen, Achenbach, Stephan, Anthony, Susan, Mak, Sze, Mittal, Tarun, Benedek, Theodora, Sharma, Vinoda, Lin, Wen-Hua, Kotanidis, Christos P, Rodrigues, Jonathan C L, O’Connor, Daniel, Siddique, Muhammad, Lockstone, Helen, Oikonomou, Evangelos K, Badi, Ileana, Lumley, Sheila F, Constantinides, Bede, Sanderson, Nicholas, Rodger, Gillian, Chau, Kevin K, Lodge, Archie, Tsakok, Maria, Gleeson, Fergus, Indrajeet, Das, Hudson, Benjamin J, Srivastava, Vivek, Farid, Shakil, Krasopoulos, George, Sayeed, Rana, Newby, David E, Channon, Keith M, and Antoniades, Charalambos
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- 2022
- Full Text
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5. Modelling systemic risk factors in cardiovascular disease using single-cell biology
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Monaco, Claudia and Dib, Lea
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- 2023
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6. Breaking the macrophage code in atherosclerosis
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Monaco, Claudia, primary and Dib, Lea, additional
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- 2023
- Full Text
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7. Pyruvate dehydrogenase kinase regulates vascular inflammation in atherosclerosis and increases cardiovascular risk
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Forteza, Maria J, primary, Berg, Martin, additional, Edsfeldt, Andreas, additional, Sun, Jangming, additional, Baumgartner, Roland, additional, Kareinen, Ilona, additional, Casagrande, Felipe Beccaria, additional, Hedin, Ulf, additional, Zhang, Song, additional, Vuckovic, Ivan, additional, Dzeja, Petras P, additional, Polyzos, Konstantinos A, additional, Gisterå, Anton, additional, Trauelsen, Mette, additional, Schwartz, Thue W, additional, Dib, Lea, additional, Herrmann, Joerg, additional, Monaco, Claudia, additional, Matic, Ljubica, additional, Gonçalves, Isabel, additional, and Ketelhuth, Daniel F J, additional
- Published
- 2023
- Full Text
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8. The GPR120 agonist TUG‐891 promotes metabolic health by stimulating mitochondrial respiration in brown fat
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Schilperoort, Maaike, van Dam, Andrea D, Hoeke, Geerte, Shabalina, Irina G, Okolo, Anthony, Hanyaloglu, Aylin C, Dib, Lea H, Mol, Isabel M, Caengprasath, Natarin, Chan, Yi‐Wah, Damak, Sami, Miller, Anne Reifel, Coskun, Tamer, Shimpukade, Bharat, Ulven, Trond, Kooijman, Sander, Rensen, Patrick CN, and Christian, Mark
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- 2018
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9. Translational opportunities of single-cell biology in atherosclerosis
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de Winther, Menno P J, primary, Bäck, Magnus, additional, Evans, Paul, additional, Gomez, Delphine, additional, Goncalves, Isabel, additional, Jørgensen, Helle F, additional, Koenen, Rory R, additional, Lutgens, Esther, additional, Norata, Giuseppe Danilo, additional, Osto, Elena, additional, Dib, Lea, additional, Simons, Michael, additional, Stellos, Konstantinos, additional, Ylä-Herttuala, Seppo, additional, Winkels, Holger, additional, Bochaton-Piallat, Marie-Luce, additional, and Monaco, Claudia, additional
- Published
- 2022
- Full Text
- View/download PDF
10. Constructing custom-made radiotranscriptomic signatures of vascular inflammation from routine CT angiograms: a prospective outcomes validation study in COVID-19
- Author
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Kotanidis, Christos P, primary, Xie, Cheng, additional, Alexander, Donna, additional, Rodrigues, Jonathan C L, additional, Burnham, Katie, additional, Mentzer, Alexander, additional, O’Connor, Daniel, additional, Knight, Julian, additional, Siddique, Muhammad, additional, Lockstone, Helen, additional, Thomas, Sheena, additional, Kotronias, Rafail, additional, Oikonomou, Evangelos K, additional, Badi, Ileana, additional, Lyasheva, Maria, additional, Shirodaria, Cheerag, additional, Lumley, Sheila F, additional, Constantinides, Bede, additional, Sanderson, Nicholas, additional, Rodger, Gillian, additional, Chau, Kevin K, additional, Lodge, Archie, additional, Tsakok, Maria, additional, Gleeson, Fergus, additional, Adlam, David, additional, Rao, Praveen, additional, Indrajeet, Das, additional, Deshpande, Aparna, additional, Bajaj, Amrita, additional, Hudson, Benjamin J, additional, Srivastava, Vivek, additional, Farid, Shakil, additional, Krasopoulos, George, additional, Sayeed, Rana, additional, Ho, Ling-Pei, additional, Neubauer, Stefan, additional, Newby, David E, additional, Channon, Keith M, additional, Deanfield, John, additional, Antoniades, Charalambos, additional, Ahern, David J, additional, Ai, Zhichao, additional, Ainsworth, Mark, additional, Allan, Chris, additional, Allcock, Alice, additional, Angus, Brian, additional, Ansari, M Azim, additional, Arancibia-Cárcamo, Carolina, additional, Aschenbrenner, Dominik, additional, Attar, Moustafa, additional, Baillie, J Kenneth, additional, Barnes, Eleanor, additional, Bashford-Rogers, Rachael, additional, Bashyal, Archana, additional, Beer, Sally, additional, Berridge, Georgina, additional, Beveridge, Amy, additional, Bibi, Sagida, additional, Bicanic, Tihana, additional, Blackwell, Luke, additional, Bowness, Paul, additional, Brent, Andrew, additional, Brown, Andrew, additional, Broxholme, John, additional, Buck, David, additional, Byrne, Helen, additional, Camara, Susana, additional, Ferreira, Ivan Candido, additional, Charles, Philip, additional, Chen, Wentao, additional, Chen, Yi-Ling, additional, Chong, Amanda, additional, Clutterbuck, Elizabeth, additional, Coles, Mark, additional, Conlon, Christopher, additional, Cornall, Richard, additional, Cribbs, Adam, additional, Curion, Fabiola, additional, Davenport, Emma, additional, Davidson, Neil, additional, Davis, Simon, additional, Dendrou, Calliope, additional, Dequaire, Julie, additional, Dib, Lea, additional, Docker, James, additional, Dold, Christina, additional, Dong, Tao, additional, Downes, Damien, additional, Drakesmith, Hal, additional, Dunachie, Susanna, additional, Duncan, David, additional, Eijsbouts, Chris, additional, Esnouf, Robert, additional, Espinosa, Alexis, additional, Etherington, Rachel, additional, Fairfax, Benjamin, additional, Fairhead, Rory, additional, Fang, Hai, additional, Fassih, Shayan, additional, Felle, Sally, additional, Fernandez Mendoza, Maria, additional, Ferreira, Ricardo, additional, Fischer, Roman, additional, Foord, Thomas, additional, Forrow, Aden, additional, Frater, John, additional, Fries, Anastasia, additional, Gallardo Sanchez, Veronica, additional, Garner, Lucy, additional, Geeves, Clementine, additional, Georgiou, Dominique, additional, Godfrey, Leila, additional, Golubchik, Tanya, additional, Gomez Vazquez, Maria, additional, Green, Angie, additional, Harper, Hong, additional, Harrington, Heather, additional, Heilig, Raphael, additional, Hester, Svenja, additional, Hill, Jennifer, additional, Hinds, Charles, additional, Hird, Clare, additional, Hoekzema, Renee, additional, Hollis, Benjamin, additional, Hughes, Jim, additional, Hutton, Paula, additional, Jackson-Wood, Matthew, additional, Jainarayanan, Ashwin, additional, James-Bott, Anna, additional, Jansen, Kathrin, additional, Jeffery, Katie, additional, Jones, Elizabeth, additional, Jostins, Luke, additional, Kerr, Georgina, additional, Kim, David, additional, Klenerman, Paul, additional, Kumar, Vinod, additional, Kumar Sharma, Piyush, additional, Kurupati, Prathiba, additional, Kwok, Andrew, additional, Lee, Angela, additional, Linder, Aline, additional, Lockett, Teresa, additional, Lonie, Lorne, additional, Lopopolo, Maria, additional, Lukoseviciute, Martyna, additional, Luo, Jian, additional, Marinou, Spyridoula, additional, Marsden, Brian, additional, Martinez, Jose, additional, Matthews, Philippa, additional, Mazurczyk, Michalina, additional, McGowan, Simon, additional, McKechnie, Stuart, additional, Mead, Adam, additional, Mi, Yuxin, additional, Monaco, Claudia, additional, Montadon, Ruddy, additional, Napolitani, Giorgio, additional, Nassiri, Isar, additional, Novak, Alex, additional, O'Brien, Darragh, additional, O'Connor, Daniel, additional, O'Donnell, Denise, additional, Ogg, Graham, additional, Overend, Lauren, additional, Park, Inhye, additional, Pavord, Ian, additional, Peng, Yanchun, additional, Penkava, Frank, additional, Pereira Pinho, Mariana, additional, Perez, Elena, additional, Pollard, Andrew, additional, Powrie, Fiona, additional, Psaila, Bethan, additional, Quan, T Phuong, additional, Repapi, Emmanouela, additional, Revale, Santiago, additional, Silva-Reyes, Laura, additional, Richard, Jean-Baptiste, additional, Rich-Griffin, Charlotte, additional, Ritter, Thomas, additional, Rollier, Christine, additional, Rowland, Matthew, additional, Ruehle, Fabian, additional, Salio, Mariolina, additional, Sansom, Stephen Nicholas, additional, Sanches Peres, Raphael, additional, Santos Delgado, Alberto, additional, Sauka-Spengler, Tatjana, additional, Schwessinger, Ron, additional, Scozzafava, Giuseppe, additional, Screaton, Gavin, additional, Seigal, Anna, additional, Semple, Malcolm, additional, Sergeant, Martin, additional, Simoglou Karali, Christina, additional, Sims, David, additional, Skelly, Donal, additional, Slawinski, Hubert, additional, Sobrinodiaz, Alberto, additional, Sousos, Nikolaos, additional, Stafford, Lizzie, additional, Stockdale, Lisa, additional, Strickland, Marie, additional, Sumray, Otto, additional, Sun, Bo, additional, Taylor, Chelsea, additional, Taylor, Stephen, additional, Taylor, Adan, additional, Thongjuea, Supat, additional, Thraves, Hannah, additional, Todd, John, additional, Tomic, Adriana, additional, Tong, Orion, additional, Trebes, Amy, additional, Trzupek, Dominik, additional, Tucci, Felicia Anna, additional, Turtle, Lance, additional, Udalova, Irina, additional, Uhlig, Holm, additional, van Grinsven, Erinke, additional, Vendrell, Iolanda, additional, Verheul, Marije, additional, Voda, Alexandru, additional, Wang, Guanlin, additional, Wang, Lihui, additional, Wang, Dapeng, additional, Watkinson, Peter, additional, Watson, Robert, additional, Weinberger, Michael, additional, Whalley, Justin, additional, Witty, Lorna, additional, Wray, Katherine, additional, Xue, Luzheng, additional, Yuen Yeung, Hing, additional, Yin, Zixi, additional, Young, Rebecca, additional, Youngs, Jonathan, additional, Zhang, Ping, additional, Zurke, Yasemin-Xiomara, additional, Banning, Adrian, additional, Antonopoulos, Alexios, additional, Kelion, Andrew, additional, Kardos, Attila, additional, Hudson, Benjamin, additional, Koo, Bon-Kwon, additional, Kotanidis, Christos, additional, Mahon, Ciara, additional, Berry, Colin, additional, Newby, David, additional, Connolly, Derek, additional, Scaletta, Diane, additional, Nicol, Ed, additional, McAlindon, Elisa, additional, Oikonomou, Evangelos, additional, Pugliese, Francesca, additional, Pontone, Gianluca, additional, Benedetti, Giulia, additional, He, Guo-Wei, additional, West, Henry, additional, Kondo, Hidekazu, additional, Benedek, Imre, additional, Das, Intrajeet, additional, Graby, John, additional, Greenwood, John, additional, Rodrigues, Jonathan, additional, Ge, Junbo, additional, Channon, Keith, additional, Fabritz, Larissa, additional, Fan, Li-Juan, additional, Kingham, Lucy, additional, Guglielmo, Marco, additional, Schmitt, Matthias, additional, Beer, Meinrad, additional, Anderson, Michelle, additional, Desai, Milind, additional, Marwan, Mohamed, additional, Takahashi, Naohiko, additional, Mehta, Nehal, additional, Dai, Neng, additional, Screaton, Nicholas, additional, Sabharwal, Nikant, additional, Maurovich-Horvat, Pál, additional, Kharbanda, Rajesh, additional, Preston, Rebecca, additional, Wood, Richard, additional, Blankstein, Ron, additional, Rajani, Ronak, additional, Mirsadraee, Saeed, additional, Munir, Shahzad, additional, Klömpken, Steffen, additional, Petersen, Steffen, additional, Achenbach, Stephan, additional, Anthony, Susan, additional, Mak, Sze, additional, Mittal, Tarun, additional, Benedek, Theodora, additional, Sharma, Vinoda, additional, and Lin, Wen-Hua, additional
- Published
- 2022
- Full Text
- View/download PDF
11. Translational opportunities of single-cell biology in atherosclerosis.
- Author
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Winther, Menno P J de, Bäck, Magnus, Evans, Paul, Gomez, Delphine, Goncalves, Isabel, Jørgensen, Helle F, Koenen, Rory R, Lutgens, Esther, Norata, Giuseppe Danilo, Osto, Elena, Dib, Lea, Simons, Michael, Stellos, Konstantinos, Ylä-Herttuala, Seppo, Winkels, Holger, Bochaton-Piallat, Marie-Luce, and Monaco, Claudia
- Subjects
BIOLOGY ,CARDIOVASCULAR diseases ,INTERNATIONAL relations ,MUSCLE cells ,PATIENT care - Abstract
The advent of single-cell biology opens a new chapter for understanding human biological processes and for diagnosing, monitoring, and treating disease. This revolution now reaches the field of cardiovascular disease (CVD). New technologies to interrogate CVD samples at single-cell resolution are allowing the identification of novel cell communities that are important in shaping disease development and direct towards new therapeutic strategies. These approaches have begun to revolutionize atherosclerosis pathology and redraw our understanding of disease development. This review discusses the state-of-the-art of single-cell analysis of atherosclerotic plaques, with a particular focus on human lesions, and presents the current resolution of cellular subpopulations and their heterogeneity and plasticity in relation to clinically relevant features. Opportunities and pitfalls of current technologies as well as the clinical impact of single-cell technologies in CVD patient care are highlighted, advocating for multidisciplinary and international collaborative efforts to join the cellular dots of CVD. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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12. Establishment and characterization of DB-1: a leptin receptor-deficient murine macrophage cell line
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Dib, Lea H., Ortega, M. Teresa, Melgarejo, Tonatiuh, and Chapes, Stephen K.
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- 2016
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13. A blood atlas of COVID-19 defines hallmarks of disease severity and specificity
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Ahern, David J., primary, Ai, Zhichao, additional, Ainsworth, Mark, additional, Allan, Chris, additional, Allcock, Alice, additional, Angus, Brian, additional, Ansari, M. Azim, additional, Arancibia-Cárcamo, Carolina V., additional, Aschenbrenner, Dominik, additional, Attar, Moustafa, additional, Baillie, J. Kenneth, additional, Barnes, Eleanor, additional, Bashford-Rogers, Rachael, additional, Bashyal, Archana, additional, Beer, Sally, additional, Berridge, Georgina, additional, Beveridge, Amy, additional, Bibi, Sagida, additional, Bicanic, Tihana, additional, Blackwell, Luke, additional, Bowness, Paul, additional, Brent, Andrew, additional, Brown, Andrew, additional, Broxholme, John, additional, Buck, David, additional, Burnham, Katie L., additional, Byrne, Helen, additional, Camara, Susana, additional, Candido Ferreira, Ivan, additional, Charles, Philip, additional, Chen, Wentao, additional, Chen, Yi-Ling, additional, Chong, Amanda, additional, Clutterbuck, Elizabeth A., additional, Coles, Mark, additional, Conlon, Christopher P., additional, Cornall, Richard, additional, Cribbs, Adam P., additional, Curion, Fabiola, additional, Davenport, Emma E., additional, Davidson, Neil, additional, Davis, Simon, additional, Dendrou, Calliope A., additional, Dequaire, Julie, additional, Dib, Lea, additional, Docker, James, additional, Dold, Christina, additional, Dong, Tao, additional, Downes, Damien, additional, Drakesmith, Hal, additional, Dunachie, Susanna J., additional, Duncan, David A., additional, Eijsbouts, Chris, additional, Esnouf, Robert, additional, Espinosa, Alexis, additional, Etherington, Rachel, additional, Fairfax, Benjamin, additional, Fairhead, Rory, additional, Fang, Hai, additional, Fassih, Shayan, additional, Felle, Sally, additional, Fernandez Mendoza, Maria, additional, Ferreira, Ricardo, additional, Fischer, Roman, additional, Foord, Thomas, additional, Forrow, Aden, additional, Frater, John, additional, Fries, Anastasia, additional, Gallardo Sanchez, Veronica, additional, Garner, Lucy C., additional, Geeves, Clementine, additional, Georgiou, Dominique, additional, Godfrey, Leila, additional, Golubchik, Tanya, additional, Gomez Vazquez, Maria, additional, Green, Angie, additional, Harper, Hong, additional, Harrington, Heather A., additional, Heilig, Raphael, additional, Hester, Svenja, additional, Hill, Jennifer, additional, Hinds, Charles, additional, Hird, Clare, additional, Ho, Ling-Pei, additional, Hoekzema, Renee, additional, Hollis, Benjamin, additional, Hughes, Jim, additional, Hutton, Paula, additional, Jackson-Wood, Matthew A., additional, Jainarayanan, Ashwin, additional, James-Bott, Anna, additional, Jansen, Kathrin, additional, Jeffery, Katie, additional, Jones, Elizabeth, additional, Jostins, Luke, additional, Kerr, Georgina, additional, Kim, David, additional, Klenerman, Paul, additional, Knight, Julian C., additional, Kumar, Vinod, additional, Kumar Sharma, Piyush, additional, Kurupati, Prathiba, additional, Kwok, Andrew, additional, Lee, Angela, additional, Linder, Aline, additional, Lockett, Teresa, additional, Lonie, Lorne, additional, Lopopolo, Maria, additional, Lukoseviciute, Martyna, additional, Luo, Jian, additional, Marinou, Spyridoula, additional, Marsden, Brian, additional, Martinez, Jose, additional, Matthews, Philippa C., additional, Mazurczyk, Michalina, additional, McGowan, Simon, additional, McKechnie, Stuart, additional, Mead, Adam, additional, Mentzer, Alexander J., additional, Mi, Yuxin, additional, Monaco, Claudia, additional, Montadon, Ruddy, additional, Napolitani, Giorgio, additional, Nassiri, Isar, additional, Novak, Alex, additional, O'Brien, Darragh P., additional, O'Connor, Daniel, additional, O'Donnell, Denise, additional, Ogg, Graham, additional, Overend, Lauren, additional, Park, Inhye, additional, Pavord, Ian, additional, Peng, Yanchun, additional, Penkava, Frank, additional, Pereira Pinho, Mariana, additional, Perez, Elena, additional, Pollard, Andrew J., additional, Powrie, Fiona, additional, Psaila, Bethan, additional, Quan, T. Phuong, additional, Repapi, Emmanouela, additional, Revale, Santiago, additional, Silva-Reyes, Laura, additional, Richard, Jean-Baptiste, additional, Rich-Griffin, Charlotte, additional, Ritter, Thomas, additional, Rollier, Christine S., additional, Rowland, Matthew, additional, Ruehle, Fabian, additional, Salio, Mariolina, additional, Sansom, Stephen Nicholas, additional, Sanches Peres, Raphael, additional, Santos Delgado, Alberto, additional, Sauka-Spengler, Tatjana, additional, Schwessinger, Ron, additional, Scozzafava, Giuseppe, additional, Screaton, Gavin, additional, Seigal, Anna, additional, Semple, Malcolm G., additional, Sergeant, Martin, additional, Simoglou Karali, Christina, additional, Sims, David, additional, Skelly, Donal, additional, Slawinski, Hubert, additional, Sobrinodiaz, Alberto, additional, Sousos, Nikolaos, additional, Stafford, Lizzie, additional, Stockdale, Lisa, additional, Strickland, Marie, additional, Sumray, Otto, additional, Sun, Bo, additional, Taylor, Chelsea, additional, Taylor, Stephen, additional, Taylor, Adan, additional, Thongjuea, Supat, additional, Thraves, Hannah, additional, Todd, John A., additional, Tomic, Adriana, additional, Tong, Orion, additional, Trebes, Amy, additional, Trzupek, Dominik, additional, Tucci, Felicia Anna, additional, Turtle, Lance, additional, Udalova, Irina, additional, Uhlig, Holm, additional, van Grinsven, Erinke, additional, Vendrell, Iolanda, additional, Verheul, Marije, additional, Voda, Alexandru, additional, Wang, Guanlin, additional, Wang, Lihui, additional, Wang, Dapeng, additional, Watkinson, Peter, additional, Watson, Robert, additional, Weinberger, Michael, additional, Whalley, Justin, additional, Witty, Lorna, additional, Wray, Katherine, additional, Xue, Luzheng, additional, Yeung, Hing Yuen, additional, Yin, Zixi, additional, Young, Rebecca K., additional, Youngs, Jonathan, additional, Zhang, Ping, additional, and Zurke, Yasemin-Xiomara, additional
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- 2022
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14. Interferon regulatory factor-5-dependent CD11c+ macrophages contribute to the formation of rupture–prone atherosclerotic plaques
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Edsfeldt, Andreas, primary, Swart, Maarten, additional, Singh, Pratibha, additional, Dib, Lea, additional, Sun, Jiangming, additional, Cole, Jennifer E, additional, Park, Inhye, additional, Al-Sharify, Dania, additional, Persson, Ana, additional, Nitulescu, Mihaela, additional, Borges, Patricia Das Neves, additional, Kassiteridi, Christina, additional, Goddard, Michael E, additional, Lee, Regent, additional, Volkov, Petr, additional, Orho-Melander, Marju, additional, Maegdefessel, Lars, additional, Nilsson, Jan, additional, Udalova, Irina, additional, Goncalves, Isabel, additional, and Monaco, Claudia, additional
- Published
- 2022
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15. Effect of maternal protein restriction during pregnancy and postweaning high-fat feeding on diet-induced thermogenesis in adult mouse offspring
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Sellayah, Dyan, Dib, Lea, Anthony, Frederick W., Watkins, Adam J., Fleming, Tom P., Hanson, Mark A., and Cagampang, Felino R.
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- 2014
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16. Measuring Respiratory Activity of Adipocytes and Adipose Tissues in Real Time
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Bugge, Anne, primary, Dib, Lea, additional, and Collins, Sheila, additional
- Published
- 2014
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17. Predictors of bone density in ambulatory patients on antiepileptic drugs
- Author
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El-Hajj Fuleihan, Ghada, Dib, Lea, Yamout, Bassem, Sawaya, Raja, and Mikati, Mohamad A.
- Published
- 2008
- Full Text
- View/download PDF
18. Bone Marrow Leptin Signaling Mediates Obesity-Associated Adipose Tissue Inflammation in Male Mice
- Author
-
Dib, Lea H., Ortega, M. Teresa, Fleming, Sherry D., Chapes, Stephen K., and Melgarejo, Tonatiuh
- Published
- 2014
19. SUN-584 Micrornas in Brown and White Adipocytes
- Author
-
Dimitri, Federica, primary, Alam, Mohammad T, primary, Dib, Lea, primary, and Christian, Mark, primary
- Published
- 2020
- Full Text
- View/download PDF
20. Monocyte Subsets Coregulate Inflammatory Responses by Integrated Signaling through TNF and IL-6 at the Endothelial Cell Interface
- Author
-
Chimen, Myriam, Yates, Clara M., McGettrick, Helen M., Ward, Lewis S. C., Harrison, Matthew J., Apta, Bonita, Dib, Lea H., Imhof, Beat A., Harrison, Paul, Nash, Gerard B., and Rainger, G. Ed
- Subjects
Inflammation ,Chemotaxis, Leukocyte ,Interleukin-6 ,Tumor Necrosis Factor-alpha ,Innate Immunity and Inflammation ,Endothelial Cells ,Humans ,Cell Separation ,Flow Cytometry ,Polymerase Chain Reaction ,Monocytes ,Signal Transduction - Abstract
Two major monocyte subsets, CD14+CD16− (classical) and CD14+/dimCD16+ (nonclassical/intermediate), have been described. Each has different functions ascribed in its interactions with vascular endothelial cells (EC), including migration and promoting inflammation. Although monocyte subpopulations have been studied in isolated systems, their influence on EC and on the course of inflammation has been ignored. In this study, using unstimulated or cytokine-activated EC, we observed significant differences in the recruitment, migration, and reverse migration of human monocyte subsets. Associated with this, and based on their patterns of cytokine secretion, there was a difference in their capacity to activate EC and support the secondary recruitment of flowing neutrophils. High levels of TNF were detected in cocultures with nonclassical/intermediate monocytes, the blockade of which significantly reduced neutrophil recruitment. In contrast, classical monocytes secreted high levels of IL-6, the blockade of which resulted in increased neutrophil recruitment. When cocultures contained both monocyte subsets, or when conditioned supernatant from classical monocytes cocultures (IL-6hi) was added to nonclassical/intermediate monocyte cocultures (TNFhi), the activating effects of TNF were dramatically reduced, implying that when present, the anti-inflammatory activities of IL-6 were dominant over the proinflammatory activities of TNF. These changes in neutrophil recruitment could be explained by regulation of E-selectin on the cocultured EC. This study suggests that recruited human monocyte subsets trigger a regulatory pathway of cytokine-mediated signaling at the EC interface, and we propose that this is a mechanism for limiting the phlogistic activity of newly recruited monocytes.
- Published
- 2017
21. High Plasma Leptin Is Not Associated with Higher Bone Mineral Density in Insulin-Resistant Premenopausal Obese Women
- Author
-
Samra, Rania Abou, Baba, Nahla Hwalla, Torbay, Naji, Dib, Lea, and Fuleihan, Ghada El-Hajj
- Published
- 2005
22. Appropriation of GPIbα from platelet-derived extracellular vesicles supports monocyte recruitment in systemic inflammation
- Author
-
Chimen, Myriam, primary, Evryviadou, Aigli, additional, Box, Clare L., additional, Harrison, Matthew J., additional, Hazeldine, Jon, additional, Dib, Lea H., additional, Kuravi, Sahithi J., additional, Payne, Holly, additional, Price, Joshua M.J., additional, Kavanagh, Dean, additional, Iqbal, Asif J., additional, Lax, Sian, additional, Kalia, Neena, additional, Brill, Alex, additional, Thomas, Steve G., additional, Belli, Antonio, additional, Crombie, Nicholas, additional, Adams, Rachel A., additional, Evans, Shelley-Ann, additional, Deckmyn, Hans, additional, Lord, Janet M., additional, Harrison, Paul, additional, Watson, Steve P., additional, Nash, Gerard B., additional, and Rainger, G. Ed, additional
- Published
- 2019
- Full Text
- View/download PDF
23. P6 UNCOVERING MYELOID CELL DIVERSITY IN ATHEROSCLEROSIS USING MASS CYTOMETRY
- Author
-
Cole, Jennifer E, primary, Park, Inhye, additional, Ahern, David, additional, Dib, Lea, additional, Kassiteridi, Christina, additional, Danso Abeam, Dina, additional, Goddard, Michael, additional, Green, Patricia, additional, Maffia, Pasquale, additional, and Monaco, Claudia, additional
- Published
- 2018
- Full Text
- View/download PDF
24. Activation of the Immune-Metabolic Receptor GPR84 Enhances Inflammation and Phagocytosis in Macrophages
- Author
-
Recio, Carlota, primary, Lucy, Daniel, additional, Purvis, Gareth S. D., additional, Iveson, Poppy, additional, Zeboudj, Lynda, additional, Iqbal, Asif J., additional, Lin, Daniel, additional, O’Callaghan, Chris, additional, Davison, Lucy, additional, Griesbach, Esther, additional, Russell, Angela J., additional, Wynne, Graham M., additional, Dib, Lea, additional, Monaco, Claudia, additional, and Greaves, David R., additional
- Published
- 2018
- Full Text
- View/download PDF
25. The GPR 120 agonist TUG ‐891 promotes metabolic health by stimulating mitochondrial respiration in brown fat
- Author
-
Schilperoort, Maaike, primary, van Dam, Andrea D, additional, Hoeke, Geerte, additional, Shabalina, Irina G, additional, Okolo, Anthony, additional, Hanyaloglu, Aylin C, additional, Dib, Lea H, additional, Mol, Isabel M, additional, Caengprasath, Natarin, additional, Chan, Yi‐Wah, additional, Damak, Sami, additional, Miller, Anne Reifel, additional, Coskun, Tamer, additional, Shimpukade, Bharat, additional, Ulven, Trond, additional, Kooijman, Sander, additional, Rensen, Patrick CN, additional, and Christian, Mark, additional
- Published
- 2018
- Full Text
- View/download PDF
26. Establishment and characterization of DB-1: a leptin receptor-deficient murine macrophage cell line
- Author
-
Dib, Lea H., primary, Ortega, M. Teresa, additional, Melgarejo, Tonatiuh, additional, and Chapes, Stephen K., additional
- Published
- 2015
- Full Text
- View/download PDF
27. LXRα fuels fatty acid-stimulated oxygen consumption in white adipocytes
- Author
-
Dib, Lea, primary, Bugge, Anne, additional, and Collins, Sheila, additional
- Published
- 2014
- Full Text
- View/download PDF
28. High Plasma Leptin Is Not Associated with Higher Bone Mineral Density in Insulin-Resistant Premenopausal Obese Women
- Author
-
Abou Samra, Rania, primary, Baba, Nahla Hwalla, additional, Torbay, Naji, additional, Dib, Lea, additional, and Fuleihan, Ghada El-Hajj, additional
- Published
- 2005
- Full Text
- View/download PDF
29. Impact of anthropometric, lifestyle, and body composition variables on ultrasound measurements in school children
- Author
-
Dib, Lea, primary, Arabi, Asma, additional, Maalouf, Joyce, additional, Nabulsi, Mona, additional, and El-Hajj Fuleihan, Ghada, additional
- Published
- 2005
- Full Text
- View/download PDF
30. Erratum: Author Correction: Lipid-associated macrophages transition to an inflammatory state in human atherosclerosis, increasing the risk of cerebrovascular complications.
- Author
-
Dib L, Koneva LA, Edsfeldt A, Zurke YX, Sun J, Nitulescu M, Attar M, Lutgens E, Schmidt S, Lindholm MW, Choudhury RP, Cassimjee I, Lee R, Handa A, Goncalves I, Sansom SN, and Monaco C
- Abstract
[This corrects the article DOI: 10.1038/s44161-023-00295-x.]., (© The Author(s) 2023.)
- Published
- 2023
- Full Text
- View/download PDF
31. Appropriation of GPIbα from platelet-derived extracellular vesicles supports monocyte recruitment in systemic inflammation.
- Author
-
Chimen M, Evryviadou A, Box CL, Harrison MJ, Hazeldine J, Dib LH, Kuravi SJ, Payne H, Price JMJ, Kavanagh D, Iqbal AJ, Lax S, Kalia N, Brill A, Thomas SG, Belli A, Crombie N, Adams RA, Evans SA, Deckmyn H, Lord JM, Harrison P, Watson SP, Nash GB, and Rainger GE
- Subjects
- Animals, Endothelial Cells, Humans, Inflammation, Mice, Monocytes, Platelet Glycoprotein GPIb-IX Complex, Blood Platelets, Extracellular Vesicles
- Abstract
Interactions between platelets, leukocytes and the vessel wall provide alternative pathological routes of thrombo-inflammatory leukocyte recruitment. We found that when platelets were activated by a range of agonists in whole blood, they shed platelet-derived extracellular vesicles which rapidly and preferentially bound to blood monocytes compared to other leukocytes. Platelet-derived extracellular vesicle binding to monocytes was initiated by P-selectin-dependent adhesion and was stabilised by binding of phosphatidylserine. These interactions resulted in the progressive transfer of the platelet adhesion receptor GPIbα to monocytes. GPIbα
+- monocytes tethered and rolled on immobilised von Willebrand Factor or were recruited and activated on endothelial cells treated with TGF-β1 to induce the expression of von Willebrand Factor. In both models monocyte adhesion was ablated by a function-blocking antibody against GPIbα. Monocytes could also bind platelet-derived extracellular vesicle in mouse blood in vitro and in vivo Intratracheal instillations of diesel nanoparticles, to model chronic pulmonary inflammation, induced accumulation of GPIbα on circulating monocytes. In intravital experiments, GPIbα+ -monocytes adhered to the microcirculation of the TGF-β1-stimulated cremaster muscle, while in the ApoE-/- model of atherosclerosis, GPIbα+ -monocytes adhered to the carotid arteries. In trauma patients, monocytes bore platelet markers within 1 hour of injury, the levels of which correlated with severity of trauma and resulted in monocyte clearance from the circulation. Thus, we have defined a novel thrombo-inflammatory pathway in which platelet-derived extracellular vesicles transfer a platelet adhesion receptor to monocytes, allowing their recruitment in large and small blood vessels, and which is likely to be pathogenic., (Copyright© 2020 Ferrata Storti Foundation.)- Published
- 2020
- Full Text
- View/download PDF
32. Monocyte Subsets Coregulate Inflammatory Responses by Integrated Signaling through TNF and IL-6 at the Endothelial Cell Interface.
- Author
-
Chimen M, Yates CM, McGettrick HM, Ward LS, Harrison MJ, Apta B, Dib LH, Imhof BA, Harrison P, Nash GB, and Rainger GE
- Subjects
- Cell Separation, Flow Cytometry, Humans, Interleukin-6 immunology, Polymerase Chain Reaction, Tumor Necrosis Factor-alpha immunology, Chemotaxis, Leukocyte immunology, Endothelial Cells immunology, Inflammation immunology, Monocytes immunology, Signal Transduction immunology
- Abstract
Two major monocyte subsets, CD14
+ CD16- (classical) and CD14+/dim CD16+ (nonclassical/intermediate), have been described. Each has different functions ascribed in its interactions with vascular endothelial cells (EC), including migration and promoting inflammation. Although monocyte subpopulations have been studied in isolated systems, their influence on EC and on the course of inflammation has been ignored. In this study, using unstimulated or cytokine-activated EC, we observed significant differences in the recruitment, migration, and reverse migration of human monocyte subsets. Associated with this, and based on their patterns of cytokine secretion, there was a difference in their capacity to activate EC and support the secondary recruitment of flowing neutrophils. High levels of TNF were detected in cocultures with nonclassical/intermediate monocytes, the blockade of which significantly reduced neutrophil recruitment. In contrast, classical monocytes secreted high levels of IL-6, the blockade of which resulted in increased neutrophil recruitment. When cocultures contained both monocyte subsets, or when conditioned supernatant from classical monocytes cocultures (IL-6hi ) was added to nonclassical/intermediate monocyte cocultures (TNFhi ), the activating effects of TNF were dramatically reduced, implying that when present, the anti-inflammatory activities of IL-6 were dominant over the proinflammatory activities of TNF. These changes in neutrophil recruitment could be explained by regulation of E-selectin on the cocultured EC. This study suggests that recruited human monocyte subsets trigger a regulatory pathway of cytokine-mediated signaling at the EC interface, and we propose that this is a mechanism for limiting the phlogistic activity of newly recruited monocytes., (Copyright © 2017 The Authors.)- Published
- 2017
- Full Text
- View/download PDF
33. Measuring respiratory activity of adipocytes and adipose tissues in real time.
- Author
-
Bugge A, Dib L, and Collins S
- Subjects
- Animals, Cell Line, Cell Respiration, Cells, Cultured, Energy Metabolism, Humans, Ion Channels metabolism, Mice, Mitochondria metabolism, Mitochondrial Proteins metabolism, Oxidation-Reduction, Uncoupling Protein 1, Adipocytes metabolism, Adipose Tissue metabolism, Oxygen Consumption
- Abstract
The realization that obesity and its associated diseases have become one of modern society's major challenges to the health of the world's population has fueled much effort to understand white adipocyte biology and elucidate pathways to increase energy expenditure. One strategy has been to increase the oxidative capacity and activity of the adipocytes themselves. This has the advantage that free fatty acids (FAs) would not be released into the circulation in copious amounts, which can have detrimental effects. This is particularly true for obese individuals, who often already display severe dyslipidemia, putting them at increased risk for cardiovascular diseases. It was recently discovered that adult humans, in addition to infants, possess active brown adipocytes, characterized by expression of the mitochondrial electron gradient dissipater uncoupling protein 1 (UCP1). This has generated renewed interest in finding ways to "convert" or "adapt" white adipocytes into a more brown adipocyte-like state by increasing mitochondrial content and expression of UCP1 and activating UCP1 via lipolysis-mediated free FAs. Another approach to consider is elevating the activity of the not insignificant amount of mitochondria found in white adipocytes. The invention of the XF Flux Analyzer by Seahorse Bioscience has revolutionized this line of research as it allows for real-time measurements of respiration in multiple samples simultaneously. In this chapter, we describe our approaches and experience with employing this technology to study the metabolism of mouse and human primary and immortalized cells and mouse white adipose tissue., (© 2014 Elsevier Inc. All rights reserved.)
- Published
- 2014
- Full Text
- View/download PDF
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