Your search keyword '"Dulong S."' showing total 30 results

1. Circadian and chemotherapy-related changes in urinary modified nucleosides excretion in patients with metastatic colorectal cancer

Author

Dulong, S., Huang, Q., Innominato, P. F., Karaboue, A., Bouchahda, M., Pruvost, A., Théodoro, F., Agrofoglio, L. A., Adam, R., Finkenstädt, B., and Lévi, F.

Published

2021

2. High burden of recurrent cardiovascular events in heterozygous familial hypercholesterolemia: The French Familial Hypercholesterolemia Registry

Author

Angoulvant, D., Béliard, S., Benlian, P., Boileau, C., Boccara, F., Bruckert, E., Cariou, B., Carreau, V., Carrié, A., Charrière, S., Di Filippo, M., Ducluzeau, P.H., Dulong, S., Durlach, V., Farnier, M., Ferrari, E., Ferrières, J., Gallo, A., Girardet, J.P., Hankard, R., Krempf, M., Lalau, J.D., Lefort, B., Lemale, J., Moulin, P., Paillard, F., Peretti, N., Pradignac, A., Pucheu, Y., Rabès, J.P., Saheb, S., Sultan, A., Tounian, P., Valéro, R., Varret, M., Vergès, B., Yelnik, C., Ziegler, O., Béliard, Sophie, Boccara, Franck, Cariou, Bertrand, Carrié, Alain, Collet, Xavier, Farnier, Michel, Ferrières, Jean, Krempf, Michael, Peretti, Noël, Rabès, Jean-Pierre, Varret, Mathilde, Vimont, Alexandre, Charrière, Sybil, and Bruckert, Eric

Published

2018

3. Detection of urinary modified nucleosides by a bulk acoustic wave MIP sensor – Results and future work

Author

Agrofoglio, L.A., Krstulja, A., De Schutter, C., Favetta, P., Delépée, R., Roy, V., Dejous, C., Hallil, H., Lachaud, J.-L., Lebal, N., Omar Aouled, N., Raimbault, V., Rebière, D., Dulong, S., Levi, F., Junot, C., Théodoro, F., Pruvost, A., and Vidal, R.

Published

2014

4. Relations between strain and gender dependencies of irinotecan toxicity and UGT1A1, CES2 and TOP1 expressions in mice

Author

Ahowesso, C., Piccolo, E., Li, X.M., Dulong, S., Hossard, V., La Sorda, R., Filipski, E., Tinari, N., Delaunay, F., Iacobelli, S., and Lévi, F.

Published

2010

5. Protein kinase Cα is a calpain target in cultured embryonic muscle cells

Author

Aragon, B., Poussard, S., Dulong, S., Touyarot, K., Dargelos, E., Brustis, J.J., Levieux, D., Ducastaing, A., and Cottin, P.

Published

2002

6. ON THE ROLE OF BESTROPHIN 3 AND BESTROPHIN 4 IN AIRWAY EPITHELIA: 103

Author

Ehrenfeld, J., Dulong, S., Loriol, C., Avella, M., Boulukos, K., and Borgese, F.

Published

2008

7. High burden of recurrent cardiovascular events in heterozygous familial hypercholesterolemia: The French Familial Hypercholesterolemia Registry

Author

Béliard, Sophie, primary, Boccara, Franck, additional, Cariou, Bertrand, additional, Carrié, Alain, additional, Collet, Xavier, additional, Farnier, Michel, additional, Ferrières, Jean, additional, Krempf, Michael, additional, Peretti, Noël, additional, Rabès, Jean-Pierre, additional, Varret, Mathilde, additional, Vimont, Alexandre, additional, Charrière, Sybil, additional, Bruckert, Eric, additional, Angoulvant, D., additional, Béliard, S., additional, Benlian, P., additional, Boileau, C., additional, Boccara, F., additional, Bruckert, E., additional, Cariou, B., additional, Carreau, V., additional, Carrié, A., additional, Charrière, S., additional, Di Filippo, M., additional, Ducluzeau, P.H., additional, Dulong, S., additional, Durlach, V., additional, Farnier, M., additional, Ferrari, E., additional, Ferrières, J., additional, Gallo, A., additional, Girardet, J.P., additional, Hankard, R., additional, Krempf, M., additional, Lalau, J.D., additional, Lefort, B., additional, Lemale, J., additional, Moulin, P., additional, Paillard, F., additional, Peretti, N., additional, Pradignac, A., additional, Pucheu, Y., additional, Rabès, J.P., additional, Saheb, S., additional, Sultan, A., additional, Tounian, P., additional, Valéro, R., additional, Varret, M., additional, Vergès, B., additional, Yelnik, C., additional, and Ziegler, O., additional

Published

2018

8. Myristoylated alanin-rich C kinase substrate (MARCKS) is involved in myoblast fusion through its regulation by protein kinase C alpha and calpain proteolytic cleavage

Author

Dulong, S., Goudenege, S., Vuillier-Devillers, K., Manenti, Stéphane, Poussard, Steve, Cottin, Patrick, Institut francilien recherche, innovation et société (IFRIS), and Ministère de l'Education nationale, de l’Enseignement supérieur et de la Recherche (M.E.N.E.S.R.)-Institut National de la Recherche Agronomique (INRA)-École des hautes études en sciences sociales (EHESS)-OST-Université Paris-Est Marne-la-Vallée (UPEM)-ESIEE Paris-Centre National de la Recherche Scientifique (CNRS)

Subjects

[SDV]Life Sciences [q-bio], [INFO]Computer Science [cs], ComputingMilieux_MISCELLANEOUS

Abstract

International audience

Published

2004

9. 111 Functional characterization of SLC26A9, an anionic transporter in airway epithelia

Author

Dulong, S., primary, Guillot-Sestier, M.V., additional, Gabillat, N., additional, Borgèse, F., additional, and Ehrenfeld, J., additional

Published

2006

10. Evidence for a MARCKS-PKCa complex in skeletal muscle

Author

Poussard, S., Dulong, S., Aragon, B., Brustis, J. Jacques, Veschambre, P., Ducastaing, A., and Cottin, P.

Published

2001

11. Global perspective of familial hypercholesterolaemia: a cross-sectional study from the EAS Familial Hypercholesterolaemia Studies Collaboration (FHSC)

Author

Jie Lin, Snejana Tisheva, Ishwar C. Verma, Francesco Cipollone, Liam R. Brunham, Florentina Predica, Perla A.C. Gonzalez, Jocelyne Inamo, André R. Miserez, Belma Pojskic, Michel Farnier, Avishay Ellis, Katia Bonomo, Ibrahim Al-Zakwani, Maria Grazia Zenti, Humberto A. Lopez, Khairul Shafiq Ibrahim, Erkin M. Mirrakhimov, Alexey Meshkov, Jose P. de Moura, Muthukkaruppan Annamalai, Raul D. Santos, F. Paillard, Maria Del Ben, Jan Lacko, Miguel T. Rico, Ximena Reyes, Laura E.G. de Leon, Noor Shafina Mohd Nor, Ulrich Julius, Mohammed A. Batais, Dieter Böhm, Ta-Chen Su, Takuya Kobayashi, Magdalena Chmara, Marco Gebauer, Marcos M. Lima-Martínez, Ravshanbek D. Kurbanov, Daisaku Masuda, Amro El-Hadidy, Melanie Schüler, Francisco Fuentes, Florian J. Mayer, Helena Vaverkova, F. Ulrich Beil, Juraj Bujdak, Mario Stoll, Isabelle Ruel, Elena Dorn, Thomas M. Stulnig, Abubaker Elfatih, Rano B. Alieva, Jiri Vesely, Valérie Carreau, Cristina M. Sibaja, Sophie Béliard, Olivier Ziegler, Adriana Branchi, Daniel Schurr, G.B. John Mancini, Tai E. Shyong, Eric L.T. Siang, Mafalda Bourbon, Zerrin Yigit, Meral Kayıkçıoğlu, Jacques Genest, Wei Yu, Michal Vrablík, Shavkat U. Hoshimov, Dan Gaita, Antonio Pipolo, Ashraf H.A. AlQudaimi, Walter Speidl, Gianfranco Parati, Zaliha Ismail, Victoria M. Zubieta, René Valéro, Tomas Salek, Hana Halamkova, Gustavs Latkovskis, Nicole Allendorf-Ostwald, Agnes Perrin, Vladimir Soska, Anastasia Garoufi, Francisco Araujo, Nacu C. Portilla, Thomas Segiet, Charalambos Koumaras, Hila Knobler, Fatih Sivri, Hani Altaradi, Ivan Pećin, Long Jiang, Alexander Dressel, Marlena Woś, Jana Franekova, D. Agapakis, Quitéria Rato, Dirk J. Blom, Marcin A. Bartlomiejczyk, Krzysztof Dyrbuś, Maurizio Averna, Phivos Symeonides, Yung A. Chua, Asim Rana, András Nagy, Juan C.G. Cuellar, Alexander Jäkel, Maya Safarova, Neama Luqman, Amalia-Despoina Koutsogianni, Patrick Tounian, Jose A. Alvarez, Ada Cuevas, Corinna Richter, Sybil Charrieres, Vitaliy Zafiraki, Michalis Doumas, Angela Lux, Thanh Huong Truong, Elaine Chow, José Luis Díaz-Díaz, Jesus R.H. Almada, Sabine Füllgraf-Horst, Gustavo G. Retana, Claudio Borghi, Gianni Biolo, Ivajlo Tzvetkov, Patrícia Pais, Mehmet Akbulut, Kumiko Nagahama, Oner Ozdogan, Frank Leistikow, Jianxun He, Alexander R.M. Lyons, Poranee Ganokroj, Luis E.S. Mendia, Ann-Cathrin Koschker, Gabriela A.G. Ramirez, Dainus Gilis, Karin Balinth, José Ramiro Cruz, Paolo Calabrò, Alberico L. Catapano, Emmanouil Skalidis, Hamida Al-Barwani, Genovefa Kolovou, Carolyn S.P. Lam, Yoto Yotov, Yaacov Henkin, Gabriella Iannuzzo, Aimi Z. Razman, Alma B.M. Rodriguez, Hans Dieplinger, Darlington E. Obaseki, Ursulo J. Herrera, Arcangelo Iannuzzi, Christoph Säly, Elena Olmastroni, Francisco G. Padilla, S.A. Nazli, Ioanna Gouni-Berthold, Miriam Kozárová, Urh Groselj, Igor Shaposhnik, Lorenzo Iughetti, Nawal Rwaili, Cinthia E. Jannes, Andrea Bartuli, Mikhail Voevoda, Marat V. Ezhov, Yanyu Duan, Alper Sonmez, Mustafa Yenercag, Ariane Sultan, Natasza Gilis-Malinowska, Tavintharan Subramaniam, Mohamed Ashraf, Jing Pang, Kota Matsuki, Tao Jiang, Gerald Klose, Eduardo A.R. Rodriguez, Lucie Solcova, Riccardo Sarzani, Mahmoud Traina, Alejandra Vázquez Cárdenas, Gordon A. Francis, Adolat V. Ziyaeva, Ronen Durst, Maciej Banach, Francisco Silva, Heribert Schunkert, Børge G. Nordestgaard, Ziyou Liu, Ahmad Bakhtiar Md Radzi, Hana Rosolova, Andrea Bäßler, Abdulhalim Jamal Kinsara, Noël Peretti, Victor Gurevich, Margarita T. Tamayo, Abdullah Tuncez, Florian Höllerl, Ljubica Stosic, Jianguang Qi, Anja Kirschbaum, Jitendra P.S. Sawhney, Michael Scholl, Kausik K. Ray, Mohamed Bendary, Hapizah Nawawi, Adrienne Tarr, Barbora Nussbaumerova, B.C. Brice, Kurt Huber, Noor Alicezah Mohd Kasim, A. Rahman A. Jamal, Vaclava Palanova, Giacomo Biasucci, Pucong Ye, Eva Cubova, Roopa Mehta, Rüdiger Schweizer, Veronica Zampoleri, Jacek Jóźwiak, Alyaa Al-Khateeb, Jing Hong, Katarina Raslova, Kirsten B. Holven, Tatiana Rozkova, Reinhold Busch, Alexander Klabnik, Konrad Hein, Eloy A.Z. Carrillo, Robin Urbanek, Livia Pisciotta, Fatma Y. Coskun, Jose J.G. Garcia, Valerio Pecchioli, Azra D. Nalbantic, Weerapan Khovidhunkit, Jernej Kovac, Michaela Kadurova, Mohammed Al-Jarallah, Vita Saripo, Christos V. Rizos, Jie Peng, Ang L. Chua, Dorothee Deiss, Nor A.A. Murad, Aneta Stróżyk, See Kwok, Gökhan Alici, Gillian J. Pilcher, John J.P. Kastelein, Dmitry Duplyakov, Calin Lengher, Milena Budikova, C. Azzopardi, Christina Antza, Luis E.V. Arroyo, Khalid Al-Jumaily, Ahmad Al-Sarraf, Carlos A. Aguilar-Salinas, Erkayim Bektasheva, Arta Upena-RozeMicena, Qian Wang, Xumin Wang, Leah Leavit, Radzi Rahmat, Selim Topcu, Željko Reiner, Lorenzo Maroni, Matija Cevc, Elizabeth R. Cooremans, Masatsune Ogura, Tevfik Sabuncu, Ruy D Arjona Villicaña, Andrea Giaccari, Xuesong Fan, Auryan Szalat, Sanjaya Dissanayake, Etienne Khoury, Anja Vogt, Hermann Toplak, Alexis Baass, Isabel Palma, Gaelle Sablon, Dana A. Hay, Ya Yang, Margus Viigimaa, Erik S.G. Stroes, Dror Harats, Konstantin Krychtiuk, Zesen Liu, Aleksandra Parczewska, Yves Cottin, Yichen Qu, Mathilde Di-Fillipo, Agnieszka Konopka, Lamija Pojskic, Guadalupe J. Dominguez, Ahmet Temizhan, Roberto C. Chacon, Ibrahim E. Dural, Qiang Yong, G. Kees Hovingh, Kang Meng, Sandra Kutkiene, Julie Lemale, Reinhold Innerhofer, Alexandros D. Tselepis, Handrean Soran, Wolfgang König, Bassam Atallah, Olena Mitchenko, Jana Cepova, Eduardo M. Rodriguez, Ulrich Laufs, Norhidayah Rosman, Alena Lubasova, V. Durlach, Frederick J. Raal, Elyor Khodzhiboboev, Cristina Pederiva, Hui Yuan, Ashraf Reda, Fahad Alnouri, Konstantinos Tziomalos, Thanh T. Le, Jana Sirotiakova, Régis Hankard, Hector E.A. Cazares, Betsabel Rodriguez, Lenka Pavlickova, Assen Goudev, Julius Katzmann, Diana Boger, Wael Almahmeed, Katarina T. Podkrajsek, Sabina Zambon, Fahri Bayram, Nadia Citroni, Samir Rafla, Vincent Rigalleau, Aleksandr B. Shek, Hani Sabbour, Berenice G. Guzman, Shoshi Shpitzen, Eric Tarantino, Ahmed Bendary, Fedya Nikolov, Jean Bergeron, Stefan Kopf, Iva Rasulic, Gerald F. Watts, Muhammad I.A. Hafidz, Mehmet B. Yilmaz, Kathrin Biolik, Ira A. Haack, Robert A. Hegele, Sonia Dulong, Bartosz Wasąg, Osama Sanad, Susana Correia, Zhenjia Wang, Dana Biedermann, Christel König, Helena Podzimkova, Ihab Daoud, Mohammad Alghamdi, Dražen Perica, László Márk, Iosif Koutagiar, Volkan Dogan, Vladimir Blaha, Chandrashekhar K. Ponde, Katerina Valoskova, Amer A. Jabbar, Azhari Rosman, Sazzli Kasim, Mesut Demir, Ulugbek I. Nizamov, Aldo Ferreira-Hermosillo, Dilek Yesilbursa, Atef Elbahry, Arshad Abdulrasheed, Omer A. Elamin, Vasileios Athyros, Joanna Lewek, Gergely Nagy, Ursula Kassner, Jian Jiao, Klaus G. Parhofer, Charlotte Nzeyimana, Marcin Pajkowski, Stanislav Zemek, Jose J.C. Macías, Cornelius Müller, G. Sfikas, Leopoldo Pérez de Isla, Yulia Ragino, Fahad Al-Zadjali, Abdul Rais Sanusi, Anna Rita Roscini, Jean Ferrières, Selim Jambart, Jean Pierre Rabes, Laura Schreier, Hofit Cohen, Olivier S. Descamps, N. Lalic, Christine Stumpp, Antonio J. Vallejo-Vaz, Jutta Christmann, Manuela Casula, Mariko Harada-Shiba, Olga Lunegova, Ewa Starostecka, Nicolas D. Oca, Alain Carrié, Achilleas Attilakos, Savas Ozer, Andreea Dumitrescu, Jürgen Merke, Urte Aliosaitiene, Evangelos Liberopoulos, Manuel O. De los Rios Ibarra, Maria J. Virtuoso, Alessandro Lupi, Panagiotis Anagnostis, Ruth Agar, Dorota Ferrieres, George Liamis, José Eduardo Krieger, Mariann Harangi, Fouzia Sadiq, Francois Schiele, Saif Kamal, Mária Audikovszky, Peter Baumgartner, Marta Gazzotti, Daniel Gaudet, Ashanty F. Ortega, Marcin Gruchała, Philippe Moulin, Ljiljana Popovic, Luca Bonanni, E. Kiouri, Mika Hori, Chiara Trenti, Elena Repetti, Carlo Sabbà, Sophie Bernard, Alejandro R. Zazueta, Mirac Vural, Jesus R. Gonzalez, C. Stevens, Francesca Carubbi, Wenhui Wen, Sabri Demircan, Kanika I. Dharmayat, Anne Tybjærg-Hansen, Elizabete Terauda, Claudia Zemmrich, Alphonsus Isara, Fabiola L. Sobrevilla, Anell Hernandez Garcia, Ibrahim Sisic, Justin T. I-Shing, Yvonne Winhofer-Stöckl, Luya Wang, Manfred Mayer, Mohanad Al-ageedi, Judith Wiener, Mohammed Al-Kindi, Anis Safura Ramli, Yan Chen, Denis Angoulvant, Aytekin Oguz, K.H. Wolmarans, Claudio Ferri, Tomáš Freiberger, Lubomira Cermakova, Julieta D.M. Portano, Pierre Henri Ducluzeau, Katerina Vonaskova, Levent H. Can, Mario H.F. Andrade, György Paragh, C. Ebenbichler, Karina J.A. Rivera, Alia Khudari, Elisabeth Steinhagen-Thiessen, Ana C. Alves, Victoria Korneva, Sandra Singh, Georgia Anastasiou, Nur S. Hamzan, Massimo Federici, Lale Tokgozoglu, Hector G. Alcala, Oana Moldovan, Giuseppe Mandraffino, Swarup A.V. Shah, Lukas Burda, Ersel Onrat, Manuel de los Reyes Barrera Bustillo, Mirjana Radovic, Arman Postadzhiyan, Nien-Tzu Chang, Aylin Yildirir, Martin Mäser, Bruno Fink, Svetlana Mosteoru, Ulrike Schatz, Luis A.V. Talavera, Magdalena Dusejovska, Richard Ceska, Faisal A. Al-Allaf, T.F. Ashavaid, Gereon Böll, Sona Machacova, Gonzalo C. Vargas, Antonio Gallo, Elina Pantchechnikova, Lukas Tichy, Gersina Rega-Kaun, Moses Elisaf, Branislav Vohnout, Antonio Bossi, Suad Al-Mukhaini, Natasa Rajkovic, Ursa Sustar, Merih Kutlu, Mohamed Sobhy, Britta Otte, Ana M. Medeiros, Borut Jug, Patrick Couture, Rodrigo Alonso, Wolfgang Seeger, Guzal J. Abdullaeva, Ahmet Celik, Nasreen Al-Sayed, Béla Benczúr, Petra E. Khoury, Rafezah Razali, Ma L.R. Osorio, Ruiying Zhang, Monica M.N. Usme, Humberto Garcia Aguilar, Ceyhun Ceyhan, Antje Spens, Christoph J. Binder, Volker Schrader, Terrance C.S. Jin, Neftali E.A. Villa, Aleksandra Michalska-Grzonkowska, Francesco Purrello, Marshima M. Rosli, Vincent Maher, Dilshad Rasul, Ines Colaço, Ornella Guardamagna, Giuliana Mombelli, Khalid F. AlHabib, Fahmi Alkaf, Marianne Benn, Youmna Ghaleb, Arsenio V. Vazquez, Lakshmi L. Reddy, Salih Kilic, Siti Hamimah Sheikh Abdul Kadir, E. Bilianou, Rossella Marcucci, Sandro Muntoni, Kurt Widhalm, Evangelos A. Zacharis, Kuznetsova T. Yu, Eric Bruckert, Antonia Sonntag, Katerina Rehouskova, Josè Pablo Werba, Leobardo Sauque-Reyna, Myra Tilney, Dov Gavishv, A.M. Fiorenza, Zdenka Krejsova, Hong A. Le, Andrey V. Susekov, Isabel Klein, Mai N.T. Nguyen, Andrejs Erglis, Muge Ildizli, Diane Brisson, Salmi Razali, Winfried März, Ovidio Muñiz-Grijalvo, Justyna Borowiec-Wolna, Ingrid Buganova, Ngoc T. Kim, Yue Wu, István Reiber, Jose C.A. Martinez, Pavel Malina, Sandy Elbitar, Stephan Matthias, Ali F. Abdalsahib, Zlatko Fras, Wilson E Sadoh, Lucas Kleemann, Tayfun Sahin, Martin P. Bogsrud, Fabio Pellegatta, Mohamed A. Shafy, Yuntao Li, Martine Paquette, Zuhier Awan, Arturo Pujia, Xiantao Song, Renata Cifkova, Alexandre C. Pereira, Ioannis Skoumas, Roman Cibulka, Tadej Battelino, Mariusz Gąsior, Ghada Kazamel, Lahore S.U. Shah, Eran Leitersdorf, Niki Katsiki, Daniel Elías-López, Khalid Al-Rasadi, Grete Talviste, Sarka Mala, Rocio M. Alvarado, Pavel Kraml, Gerret Paulsen, Angelina Passaro, Zsolt Karányi, Carine Ayoub, Vera Adamkova, Ivo Petrov, Turky H. Almigbal, Rohana Abdul Ghani, Franck Boccara, Brian W. McCrindle, François Martin, Jamshed J. Dalal, Shitong Cheng, Khalid Al-Waili, Chaoyi Zhang, Ramon M. Prado, Lubica Cibickova, Lubomira Fabryova, Tobias Wiesner, Thuhairah Hasrah Abdul Rahman, Tan J. Le, Marcello Arca, Sabine Scholl-Bürgi, Juan R. Saucedo, Georgijs Nesterovics, Carla V.M. Valencia, Alexander Stadelmann, Vasileios Kotsis, Lina Badimon, Shizuya Yamashita, Jose C.M. Oyervides, Lay K. Teh, Susanne Greber-Platzer, Marianne Abifadel, Ruta Meiere, Wibke Reinhard, Pablo Corral, Nina Schmidt, Alain Pradignac, A. David Marais, Marta Jordanova, Marzena Romanowska-Kocejko, Johannes Scholl, Brian Tomlinson, Laura G.G. Herrera, Loukianos S. Rallidis, Pedro Mata, Sameh Emil, Matej Mlinaric, Emile Ferrari, Suraya Abdul Razak, Alexandra Ershova, Andrie G. Panayiotou, Alinna Y.R. Garcia, Kairat Davletov, Katarina Lalic, Doan L. Do, Krzysztof Chlebus, Ricardo A. Carrera, Daniel I.P. Vazquez, Nikolaos Sakkas, Liyuan Xu, Mays Altaey, Aysa Hacioglu, Alexandro J. Martagon, Marta Żarczyńska-Buchowiecka, Michael Schömig, Jürgen Homberger, Andrea Benso, Bertrand Cariou, Ardon Rubinstein, Omer Gedikli, Emre Durakoglugil, Mei Chong, Bahadir Kirilmaz, Suhaila Abd Muid, Jose M. Salgado, Berenice P. Aparicio, Mutaz Alkhnifsawi, Bruno Vergès, Cécile Yelnik, Goreti Lobarinhas, Zaneta Petrulioniene, Sylvia Asenjo, Aytul B. Yildirim, László Bajnok, Vallejo-Vaz A.J., Stevens C.A.T., Lyons A.R.M., Dharmayat K.I., Freiberger T., Hovingh G.K., Mata P., Raal F.J., Santos R.D., Soran H., Watts G.F., Abifadel M., Aguilar-Salinas C.A., Alhabib K.F., Alkhnifsawi M., Almahmeed W., Alnouri F., Alonso R., Al-Rasadi K., Al-Sarraf A., Al-Sayed N., Araujo F., Ashavaid T.F., Banach M., Beliard S., Benn M., Binder C.J., Bogsrud M.P., Bourbon M., Chlebus K., Corral P., Davletov K., Descamps O.S., Durst R., Ezhov M., Gaita D., Genest J., Groselj U., Harada-Shiba M., Holven K.B., Kayikcioglu M., Khovidhunkit W., Lalic K., Latkovskis G., Laufs U., Liberopoulos E., Lima-Martinez M.M., Lin J., Maher V., Marais A.D., Marz W., Mirrakhimov E., Miserez A.R., Mitchenko O., Nawawi H., Nordestgaard B.G., Panayiotou A.G., Paragh G., Petrulioniene Z., Pojskic B., Postadzhiyan A., Raslova K., Reda A., Reiner, Sadiq F., Sadoh W.E., Schunkert H., Shek A.B., Stoll M., Stroes E., Su T.-C., Subramaniam T., Susekov A.V., Tilney M., Tomlinson B., Truong T.H., Tselepis A.D., Tybjaerg-Hansen A., Vazquez Cardenas A., Viigimaa M., Wang L., Yamashita S., Kastelein J.J.P., Bruckert E., Vohnout B., Schreier L., Pang J., Ebenbichler C., Dieplinger H., Innerhofer R., Winhofer-Stockl Y., Greber-Platzer S., Krychtiuk K., Speidl W., Toplak H., Widhalm K., Stulnig T., Huber K., Hollerl F., Rega-Kaun G., Kleemann L., Maser M., Scholl-Burgi S., Saly C., Mayer F.J., Sablon G., Tarantino E., Nzeyimana C., Pojskic L., Sisic I., Nalbantic A.D., Jannes C.E., Pereira A.C., Krieger J.E., Petrov I., Goudev A., Nikolov F., Tisheva S., Yotov Y., Tzvetkov I., Baass A., Bergeron J., Bernard S., Brisson D., Brunham L.R., Cermakova L., Couture P., Francis G.A., Gaudet D., Hegele R.A., Khoury E., Mancini G.B.J., McCrindle B.W., Paquette M., Ruel I., Cuevas A., Asenjo S., Wang X., Meng K., Song X., Yong Q., Jiang T., Liu Z., Duan Y., Hong J., Ye P., Chen Y., Qi J., Li Y., Zhang C., Peng J., Yang Y., Yu W., Wang Q., Yuan H., Cheng S., Jiang L., Chong M., Jiao J., Wu Y., Wen W., Xu L., Zhang R., Qu Y., He J., Fan X., Wang Z., Chow E., Pecin I., Perica D., Symeonides P., Vrablik M., Ceska R., Soska V., Tichy L., Adamkova V., Franekova J., Cifkova R., Kraml P., Vonaskova K., Cepova J., Dusejovska M., Pavlickova L., Blaha V., Rosolova H., Nussbaumerova B., Cibulka R., Vaverkova H., Cibickova L., Krejsova Z., Rehouskova K., Malina P., Budikova M., Palanova V., Solcova L., Lubasova A., Podzimkova H., Bujdak J., Vesely J., Jordanova M., Salek T., Urbanek R., Zemek S., Lacko J., Halamkova H., Machacova S., Mala S., Cubova E., Valoskova K., Burda L., Bendary A., Daoud I., Emil S., Elbahry A., Rafla S., Sanad O., Kazamel G., Ashraf M., Sobhy M., El-Hadidy A., Shafy M.A., Kamal S., Bendary M., Talviste G., Angoulvant D., Boccara F., Cariou B., Carreau V., Carrie A., Charrieres S., Cottin Y., Di-Fillipo M., Ducluzeau P.H., Dulong S., Durlach V., Farnier M., Ferrari E., Ferrieres D., Ferrieres J., Gallo A., hankard R., Inamo J., Lemale J., Moulin P., Paillard F., Peretti N., Perrin A., Pradignac A., Rabes J.P., Rigalleau V., Sultan A., Schiele F., Tounian P., Valero R., Verges B., Yelnik C., Ziegler O., Haack I.A., Schmidt N., Dressel A., Klein I., Christmann J., Sonntag A., Stumpp C., Boger D., Biedermann D., Usme M.M.N., Beil F.U., Klose G., Konig C., Gouni-Berthold I., Otte B., Boll G., Kirschbaum A., Merke J., Scholl J., Segiet T., Gebauer M., Predica F., Mayer M., Leistikow F., Fullgraf-Horst S., Muller C., Schuler M., Wiener J., Hein K., Baumgartner P., Kopf S., Busch R., Schomig M., Matthias S., Allendorf-Ostwald N., Fink B., Bohm D., Jakel A., Koschker A.-C., Schweizer R., Vogt A., Parhofer K., Konig W., Reinhard W., Bassler A., Stadelmann A., Schrader V., Katzmann J., Tarr A., Steinhagen-Thiessen E., Kassner U., Paulsen G., Homberger J., Zemmrich C., Seeger W., Biolik K., Deiss D., Richter C., Pantchechnikova E., Dorn E., Schatz U., Julius U., Spens A., Wiesner T., Scholl M., Rizos C.V., Sakkas N., Elisaf M., Skoumas I., Tziomalos K., Rallidis L., Kotsis V., Doumas M., Athyros V., Skalidis E., Kolovou G., Garoufi A., Bilianou E., Koutagiar I., Agapakis D., Kiouri E., Antza C., Katsiki N., Zacharis E., Attilakos A., Sfikas G., Koumaras C., Anagnostis P., Anastasiou G., Liamis G., Koutsogianni A.-D., Karanyi Z., Harangi M., Bajnok L., Audikovszky M., Mark L., Benczur B., Reiber I., Nagy G., Nagy A., Reddy L.L., Shah S.A.V., Ponde C.K., Dalal J.J., Sawhney J.P.S., Verma I.C., Altaey M., Al-Jumaily K., Rasul D., Abdalsahib A.F., Jabbar A.A., Al-ageedi M., Agar R., Cohen H., Ellis A., Gavishv D., Harats D., Henkin Y., Knobler H., Leavit L., Leitersdorf E., Rubinstein A., Schurr D., Shpitzen S., Szalat A., Casula M., Zampoleri V., Gazzotti M., Olmastroni E., Sarzani R., Ferri C., Repetti E., Sabba C., Bossi A.C., Borghi C., Muntoni S., Cipollone F., Purrello F., Pujia A., Passaro A., Marcucci R., Pecchioli V., Pisciotta L., Mandraffino G., Pellegatta F., Mombelli G., Branchi A., Fiorenza A.M., Pederiva C., Werba J.P., Parati G., Carubbi F., Iughetti L., Iannuzzi A., Iannuzzo G., Calabro P., Averna M, Biasucci G., Zambon S., Roscini A.R., Trenti C., Arca M., Federici M., Del Ben M., Bartuli A., Giaccari A., Pipolo A., Citroni N., Guardamagna O., Bonomo K., Benso A., Biolo G., Maroni L., Lupi A., Bonanni L., Zenti M.G., Matsuki K., Hori M., Ogura M., Masuda D., Kobayashi T., Nagahama K., Al-Jarallah M., Radovic M., Lunegova O., Bektasheva E., Khodzhiboboev E., Erglis A., Gilis D., Nesterovics G., Saripo V., Meiere R., Upena-RozeMicena A., Terauda E., Jambart S., Khoury P.E., Elbitar S., Ayoub C., Ghaleb Y., Aliosaitiene U., Kutkiene S., Kasim N.A.M., Nor N.S.M., Ramli A.S., Razak S.A., Al-Khateeb A., Kadir S.H.S.A., Muid S.A., Rahman T.A., Kasim S.S., Radzi A.B.M., Ibrahim K.S., Razali S., Ismail Z., Ghani R.A., Hafidz M.I.A., Chua A.L., Rosli M.M., Annamalai M., Teh L.K., Razali R., Chua Y.A., Rosman A., Sanusi A.R., Murad N.A.A., Jamal A.R.A., Nazli S.A., Razman A.Z., Rosman N., Rahmat R., Hamzan N.S., Azzopardi C., Mehta R., Martagon A.J., Ramirez G.A.G., Villa N.E.A., Vazquez A.V., Elias-Lopez D., Retana G.G., Rodriguez B., Macias J.J.C., Zazueta A.R., Alvarado R.M., Portano J.D.M., Lopez H.A., Sauque-Reyna L., Herrera L.G.G., Mendia L.E.S., Aguilar H.G., Cooremans E.R., Aparicio B.P., Zubieta V.M., Gonzalez P.A.C., Ferreira-Hermosillo A., Portilla N.C., Dominguez G.J., Garcia A.Y.R., Cazares H.E.A., Gonzalez J.R., Valencia C.V.M., Padilla F.G., Prado R.M., De los Rios Ibarra M.O., Villicana R.D.A., Rivera K.J.A., Carrera R.A., Alvarez J.A., Martinez J.C.A., de los Reyes Barrera Bustillo M., Vargas G.C., Chacon R.C., Andrade M.H.F., Ortega A.F., Alcala H.G., de Leon L.E.G., Guzman B.G., Garcia J.J.G., Cuellar J.C.G., Cruz J.R.G., Garcia A.H., Almada J.R.H., Herrera U.J., Sobrevilla F.L., Rodriguez E.M., Sibaja C.M., Rodriguez A.B.M., Oyervides J.C.M., Vazquez D.I.P., Rodriguez E.A.R., Osorio M.L.R., Saucedo J.R., Tamayo M.T., Talavera L.A.V., Arroyo L.E.V., Carrillo E.A.Z., Isara A., Obaseki D.E., Al-Waili K., Al-Zadjali F., Al-Zakwani I., Al-Kindi M., Al-Mukhaini S., Al-Barwani H., Rana A., Shah L.S.U., Starostecka E., Konopka A., Lewek J., Bartlomiejczyk M., Gasior M., Dyrbus K., Jozwiak J., Gruchala M., Pajkowski M., Romanowska-Kocejko M., Zarczynska-Buchowiecka M., Chmara M., Wasag B., Parczewska A., Gilis-Malinowska N., Borowiec-Wolna J., Strozyk A., Wos M., Michalska-Grzonkowska A., Medeiros A.M., Alves A.C., Silva F., Lobarinhas G., Palma I., de Moura J.P., Rico M.T., Rato Q., Pais P., Correia S., Moldovan O., Virtuoso M.J., Salgado J.M., Colaco I., Dumitrescu A., Lengher C., Mosteoru S., Meshkov A., Ershova A., Rozkova T., Korneva V., Yu K.T., Zafiraki V., Voevoda M., Gurevich V., Duplyakov D., Ragino Y., Safarova M., Shaposhnik I., Alkaf F., Khudari A., Rwaili N., Al-Allaf F., Alghamdi M., Batais M.A., Almigbal T.H., Kinsara A., AlQudaimi A.H.A., Awan Z., Elamin O.A., Altaradi H., Rajkovic N., Popovic L., Singh S., Stosic L., Rasulic I., Lalic N.M., Lam C., Le T.J., Siang E.L.T., Dissanayake S., I-Shing J.T., Shyong T.E., Jin T.C.S., Balinth K., Buganova I., Fabryova L., Kadurova M., Klabnik A., Kozarova M., Sirotiakova J., Battelino T., Kovac J., Mlinaric M., Sustar U., Podkrajsek K.T., Fras Z., Jug B., Cevc M., Pilcher G.J., Blom D.J., Wolmarans K.H., Brice B.C., Muniz-Grijalvo O., Diaz-Diaz J.L., de Isla L.P., Fuentes F., Badimon L., Martin F., Lux A., Chang N.-T., Ganokroj P., Akbulut M., Alici G., Bayram F., Can L.H., Celik A., Ceyhan C., Coskun F.Y., Demir M., Demircan S., Dogan V., Durakoglugil E., Dural I.E., Gedikli O., Hacioglu A., Ildizli M., Kilic S., Kirilmaz B., Kutlu M., Oguz A., Ozdogan O., Onrat E., Ozer S., Sabuncu T., Sahin T., Sivri F., Sonmez A., Temizhan A., Topcu S., Tuncez A., Vural M., Yenercag M., Yesilbursa D., Yigit Z., Yildirim A.B., Yildirir A., Yilmaz M.B., Atallah B., Traina M., Sabbour H., Hay D.A., Luqman N., Elfatih A., Abdulrasheed A., Kwok S., Oca N.D., Reyes X., Alieva R.B., Kurbanov R.D., Hoshimov S.U., Nizamov U.I., Ziyaeva A.V., Abdullaeva G.J., Do D.L., Nguyen M.N.T., Kim N.T., Le T.T., Le H.A., Tokgozoglu L., Catapano A.L., Ray K.K., Vallejo-Vaz, A. J., Stevens, C. A. T., Lyons, A. R. M., Dharmayat, K. I., Freiberger, T., Hovingh, G. K., Mata, P., Raal, F. J., Santos, R. D., Soran, H., Watts, G. F., Abifadel, M., Aguilar-Salinas, C. A., Alhabib, K. F., Alkhnifsawi, M., Almahmeed, W., Alnouri, F., Alonso, R., Al-Rasadi, K., Al-Sarraf, A., Al-Sayed, N., Araujo, F., Ashavaid, T. F., Banach, M., Beliard, S., Benn, M., Binder, C. J., Bogsrud, M. P., Bourbon, M., Chlebus, K., Corral, P., Davletov, K., Descamps, O. S., Durst, R., Ezhov, M., Gaita, D., Genest, J., Groselj, U., Harada-Shiba, M., Holven, K. B., Kayikcioglu, M., Khovidhunkit, W., Lalic, K., Latkovskis, G., Laufs, U., Liberopoulos, E., Lima-Martinez, M. M., Lin, J., Maher, V., Marais, A. D., Marz, W., Mirrakhimov, E., Miserez, A. R., Mitchenko, O., Nawawi, H., Nordestgaard, B. G., Panayiotou, A. G., Paragh, G., Petrulioniene, Z., Pojskic, B., Postadzhiyan, A., Raslova, K., Reda, A., Sadiq, F., Sadoh, W. E., Schunkert, H., Shek, A. B., Stoll, M., Stroes, E., Su, T. -C., Subramaniam, T., Susekov, A. V., Tilney, M., Tomlinson, B., Truong, T. H., Tselepis, A. D., Tybjaerg-Hansen, A., Vazquez Cardenas, A., Viigimaa, M., Wang, L., Yamashita, S., Kastelein, J. J. P., Bruckert, E., Vohnout, B., Schreier, L., Pang, J., Ebenbichler, C., Dieplinger, H., Innerhofer, R., Winhofer-Stockl, Y., Greber-Platzer, S., Krychtiuk, K., Speidl, W., Toplak, H., Widhalm, K., Stulnig, T., Huber, K., Hollerl, F., Rega-Kaun, G., Kleemann, L., Maser, M., Scholl-Burgi, S., Saly, C., Mayer, F. J., Sablon, G., Tarantino, E., Nzeyimana, C., Pojskic, L., Sisic, I., Nalbantic, A. D., Jannes, C. E., Pereira, A. C., Krieger, J. E., Petrov, I., Goudev, A., Nikolov, F., Tisheva, S., Yotov, Y., Tzvetkov, I., Baass, A., Bergeron, J., Bernard, S., Brisson, D., Brunham, L. R., Cermakova, L., Couture, P., Francis, G. A., Gaudet, D., Hegele, R. A., Khoury, E., Mancini, G. B. J., Mccrindle, B. W., Paquette, M., Ruel, I., Cuevas, A., Asenjo, S., Wang, X., Meng, K., Song, X., Yong, Q., Jiang, T., Liu, Z., Duan, Y., Hong, J., Ye, P., Chen, Y., Qi, J., Li, Y., Zhang, C., Peng, J., Yang, Y., Yu, W., Wang, Q., Yuan, H., Cheng, S., Jiang, L., Chong, M., Jiao, J., Wu, Y., Wen, W., Xu, L., Zhang, R., Qu, Y., He, J., Fan, X., Wang, Z., Chow, E., Pecin, I., Perica, D., Symeonides, P., Vrablik, M., Ceska, R., Soska, V., Tichy, L., Adamkova, V., Franekova, J., Cifkova, R., Kraml, P., Vonaskova, K., Cepova, J., Dusejovska, M., Pavlickova, L., Blaha, V., Rosolova, H., Nussbaumerova, B., Cibulka, R., Vaverkova, H., Cibickova, L., Krejsova, Z., Rehouskova, K., Malina, P., Budikova, M., Palanova, V., Solcova, L., Lubasova, A., Podzimkova, H., Bujdak, J., Vesely, J., Jordanova, M., Salek, T., Urbanek, R., Zemek, S., Lacko, J., Halamkova, H., Machacova, S., Mala, S., Cubova, E., Valoskova, K., Burda, L., Bendary, A., Daoud, I., Emil, S., Elbahry, A., Rafla, S., Sanad, O., Kazamel, G., Ashraf, M., Sobhy, M., El-Hadidy, A., Shafy, M. A., Kamal, S., Bendary, M., Talviste, G., Angoulvant, D., Boccara, F., Cariou, B., Carreau, V., Carrie, A., Charrieres, S., Cottin, Y., Di-Fillipo, M., Ducluzeau, P. H., Dulong, S., Durlach, V., Farnier, M., Ferrari, E., Ferrieres, D., Ferrieres, J., Gallo, A., Hankard, R., Inamo, J., Lemale, J., Moulin, P., Paillard, F., Peretti, N., Perrin, A., Pradignac, A., Rabes, J. P., Rigalleau, V., Sultan, A., Schiele, F., Tounian, P., Valero, R., Verges, B., Yelnik, C., Ziegler, O., Haack, I. A., Schmidt, N., Dressel, A., Klein, I., Christmann, J., Sonntag, A., Stumpp, C., Boger, D., Biedermann, D., Usme, M. M. N., Beil, F. U., Klose, G., Konig, C., Gouni-Berthold, I., Otte, B., Boll, G., Kirschbaum, A., Merke, J., Scholl, J., Segiet, T., Gebauer, M., Predica, F., Mayer, M., Leistikow, F., Fullgraf-Horst, S., Muller, C., Schuler, M., Wiener, J., Hein, K., Baumgartner, P., Kopf, S., Busch, R., Schomig, M., Matthias, S., Allendorf-Ostwald, N., Fink, B., Bohm, D., Jakel, A., Koschker, A. -C., Schweizer, R., Vogt, A., Parhofer, K., Konig, W., Reinhard, W., Bassler, A., Stadelmann, A., Schrader, V., Katzmann, J., Tarr, A., Steinhagen-Thiessen, E., Kassner, U., Paulsen, G., Homberger, J., Zemmrich, C., Seeger, W., Biolik, K., Deiss, D., Richter, C., Pantchechnikova, E., Dorn, E., Schatz, U., Julius, U., Spens, A., Wiesner, T., Scholl, M., Rizos, C. V., Sakkas, N., Elisaf, M., Skoumas, I., Tziomalos, K., Rallidis, L., Kotsis, V., Doumas, M., Athyros, V., Skalidis, E., Kolovou, G., Garoufi, A., Bilianou, E., Koutagiar, I., Agapakis, D., Kiouri, E., Antza, C., Katsiki, N., Zacharis, E., Attilakos, A., Sfikas, G., Koumaras, C., Anagnostis, P., Anastasiou, G., Liamis, G., Koutsogianni, A. -D., Karanyi, Z., Harangi, M., Bajnok, L., Audikovszky, M., Mark, L., Benczur, B., Reiber, I., Nagy, G., Nagy, A., Reddy, L. L., Shah, S. A. V., Ponde, C. K., Dalal, J. J., Sawhney, J. P. S., Verma, I. C., Altaey, M., Al-Jumaily, K., Rasul, D., Abdalsahib, A. F., Jabbar, A. A., Al-ageedi, M., Agar, R., Cohen, H., Ellis, A., Gavishv, D., Harats, D., Henkin, Y., Knobler, H., Leavit, L., Leitersdorf, E., Rubinstein, A., Schurr, D., Shpitzen, S., Szalat, A., Casula, M., Zampoleri, V., Gazzotti, M., Olmastroni, E., Sarzani, R., Ferri, C., Repetti, E., Sabba, C., Bossi, A. C., Borghi, C., Muntoni, S., Cipollone, F., Purrello, F., Pujia, A., Passaro, A., Marcucci, R., Pecchioli, V., Pisciotta, L., Mandraffino, G., Pellegatta, F., Mombelli, G., Branchi, A., Fiorenza, A. M., Pederiva, C., Werba, J. P., Parati, G., Carubbi, F., Iughetti, L., Iannuzzi, A., Iannuzzo, G., Calabro, P., Averna, M., Biasucci, G., Zambon, S., Roscini, A. R., Trenti, C., Arca, M., Federici, M., Del Ben, M., Bartuli, A., Giaccari, A., Pipolo, A., Citroni, N., Guardamagna, O., Bonomo, K., Benso, A., Biolo, G., Maroni, L., Lupi, A., Bonanni, L., Zenti, M. G., Matsuki, K., Hori, M., Ogura, M., Masuda, D., Kobayashi, T., Nagahama, K., Al-Jarallah, M., Radovic, M., Lunegova, O., Bektasheva, E., Khodzhiboboev, E., Erglis, A., Gilis, D., Nesterovics, G., Saripo, V., Meiere, R., Upena-RozeMicena, A., Terauda, E., Jambart, S., Khoury, P. E., Elbitar, S., Ayoub, C., Ghaleb, Y., Aliosaitiene, U., Kutkiene, S., Kasim, N. A. M., Nor, N. S. M., Ramli, A. S., Razak, S. A., Al-Khateeb, A., Kadir, S. H. S. A., Muid, S. A., Rahman, T. A., Kasim, S. S., Radzi, A. B. M., Ibrahim, K. S., Razali, S., Ismail, Z., Ghani, R. A., Hafidz, M. I. A., Chua, A. L., Rosli, M. M., Annamalai, M., Teh, L. K., Razali, R., Chua, Y. A., Rosman, A., Sanusi, A. R., Murad, N. A. A., Jamal, A. R. A., Nazli, S. A., Razman, A. Z., Rosman, N., Rahmat, R., Hamzan, N. S., Azzopardi, C., Mehta, R., Martagon, A. J., Ramirez, G. A. G., Villa, N. E. A., Vazquez, A. V., Elias-Lopez, D., Retana, G. G., Rodriguez, B., Macias, J. J. C., Zazueta, A. R., Alvarado, R. M., Portano, J. D. M., Lopez, H. A., Sauque-Reyna, L., Herrera, L. G. G., Mendia, L. E. S., Aguilar, H. G., Cooremans, E. R., Aparicio, B. P., Zubieta, V. M., Gonzalez, P. A. C., Ferreira-Hermosillo, A., Portilla, N. C., Dominguez, G. J., Garcia, A. Y. R., Cazares, H. E. A., Gonzalez, J. R., Valencia, C. V. M., Padilla, F. G., Prado, R. M., De los Rios Ibarra, M. O., Villicana, R. D. A., Rivera, K. J. A., Carrera, R. A., Alvarez, J. A., Martinez, J. C. A., de los Reyes Barrera Bustillo, M., Vargas, G. C., Chacon, R. C., Andrade, M. H. F., Ortega, A. F., Alcala, H. G., de Leon, L. E. G., Guzman, B. G., Garcia, J. J. G., Cuellar, J. C. G., Cruz, J. R. G., Garcia, A. H., Almada, J. R. H., Herrera, U. J., Sobrevilla, F. L., Rodriguez, E. M., Sibaja, C. M., Rodriguez, A. B. M., Oyervides, J. C. M., Vazquez, D. I. P., Rodriguez, E. A. R., Osorio, M. L. R., Saucedo, J. R., Tamayo, M. T., Talavera, L. A. V., Arroyo, L. E. V., Carrillo, E. A. Z., Isara, A., Obaseki, D. E., Al-Waili, K., Al-Zadjali, F., Al-Zakwani, I., Al-Kindi, M., Al-Mukhaini, S., Al-Barwani, H., Rana, A., Shah, L. S. U., Starostecka, E., Konopka, A., Lewek, J., Bartlomiejczyk, M., Gasior, M., Dyrbus, K., Jozwiak, J., Gruchala, M., Pajkowski, M., Romanowska-Kocejko, M., Zarczynska-Buchowiecka, M., Chmara, M., Wasag, B., Parczewska, A., Gilis-Malinowska, N., Borowiec-Wolna, J., Strozyk, A., Wos, M., Michalska-Grzonkowska, A., Medeiros, A. M., Alves, A. C., Silva, F., Lobarinhas, G., Palma, I., de Moura, J. P., Rico, M. T., Rato, Q., Pais, P., Correia, S., Moldovan, O., Virtuoso, M. J., Salgado, J. M., Colaco, I., Dumitrescu, A., Lengher, C., Mosteoru, S., Meshkov, A., Ershova, A., Rozkova, T., Korneva, V., Yu, K. T., Zafiraki, V., Voevoda, M., Gurevich, V., Duplyakov, D., Ragino, Y., Safarova, M., Shaposhnik, I., Alkaf, F., Khudari, A., Rwaili, N., Al-Allaf, F., Alghamdi, M., Batais, M. A., Almigbal, T. H., Kinsara, A., Alqudaimi, A. H. A., Awan, Z., Elamin, O. A., Altaradi, H., Rajkovic, N., Popovic, L., Singh, S., Stosic, L., Rasulic, I., Lalic, N. M., Lam, C., Le, T. J., Siang, E. L. T., Dissanayake, S., I-Shing, J. T., Shyong, T. E., Jin, T. C. S., Balinth, K., Buganova, I., Fabryova, L., Kadurova, M., Klabnik, A., Kozarova, M., Sirotiakova, J., Battelino, T., Kovac, J., Mlinaric, M., Sustar, U., Podkrajsek, K. T., Fras, Z., Jug, B., Cevc, M., Pilcher, G. J., Blom, D. J., Wolmarans, K. H., Brice, B. C., Muniz-Grijalvo, O., Diaz-Diaz, J. L., de Isla, L. P., Fuentes, F., Badimon, L., Martin, F., Lux, A., Chang, N. -T., Ganokroj, P., Akbulut, M., Alici, G., Bayram, F., Can, L. H., Celik, A., Ceyhan, C., Coskun, F. Y., Demir, M., Demircan, S., Dogan, V., Durakoglugil, E., Dural, I. E., Gedikli, O., Hacioglu, A., Ildizli, M., Kilic, S., Kirilmaz, B., Kutlu, M., Oguz, A., Ozdogan, O., Onrat, E., Ozer, S., Sabuncu, T., Sahin, T., Sivri, F., Sonmez, A., Temizhan, A., Topcu, S., Tuncez, A., Vural, M., Yenercag, M., Yesilbursa, D., Yigit, Z., Yildirim, A. B., Yildirir, A., Yilmaz, M. B., Atallah, B., Traina, M., Sabbour, H., Hay, D. A., Luqman, N., Elfatih, A., Abdulrasheed, A., Kwok, S., Oca, N. D., Reyes, X., Alieva, R. B., Kurbanov, R. D., Hoshimov, S. U., Nizamov, U. I., Ziyaeva, A. V., Abdullaeva, G. J., Do, D. L., Nguyen, M. N. T., Kim, N. T., Le, T. T., Le, H. A., Tokgozoglu, L., Catapano, A. L., Ray, K. K., and EAS Familial Hypercholesterolaemia Studies Collaboration (FHSC), Borghi C

Subjects

Male, Settore MED/09 - Medicina Interna, Arterial disease, Cross-sectional study, Adult population, Coronary Disease, Disease, Global Health, Medical and Health Sciences, Doenças Cardio e Cérebro-vasculares, Anticholesteremic Agent, Monoclonal, Prevalence, Registries, Familial Hypercholesterolemia, Humanized, Stroke, 11 Medical and Health Sciences, LS2_9, Studies Collaboration, Anticholesteremic Agents, General Medicine, Heart Disease Risk Factor, Middle Aged, FHSC global registry data, Europe, Treatment Outcome, Lower prevalence, Guidance, lipids (amino acids, peptides, and proteins), Female, Proprotein Convertase 9, Familial hypercholesterolaemia, Life Sciences & Biomedicine, Human, Adult, medicine.medical_specialty, Combination therapy, FHSC global registry, heterozygous familial hypercholesterolaemia, Cardiovascular risk factors, Antibodies, Monoclonal, Humanized, Insights, Antibodies, NO, Hyperlipoproteinemia Type II, Clinician, Medicine, General & Internal, Internal medicine, General & Internal Medicine, Health Sciences, medicine, Humans, EAS Familial Hypercholesterolaemia Studies Collaboration (FHSC), Cross-Sectional Studie, Science & Technology, Global Perspective, business.industry, Cholesterol, LDL, medicine.disease, Cross-Sectional Studies, Heart Disease Risk Factors, Hydroxymethylglutaryl-CoA Reductase Inhibitor, Hydroxymethylglutaryl-CoA Reductase Inhibitors, business

Abstract

Background The European Atherosclerosis Society Familial Hypercholesterolaemia Studies Collaboration (FHSC) global registry provides a platform for the global surveillance of familial hypercholesterolaemia through harmonisation and pooling of multinational data. In this study, we aimed to characterise the adult population with heterozygous familial hypercholesterolaemia and described how it is detected and managed globally. Methods Using FHSC global registry data, we did a cross-sectional assessment of adults (aged 18 years or older) with a clinical or genetic diagnosis of probable or definite heterozygous familial hypercholesterolaemia at the time they were entered into the registries. Data were assessed overall and by WHO regions, sex, and index versus non-index cases. Findings Of the 61 612 individuals in the registry, 42 167 adults (21 999 [53.6%] women) from 56 countries were included in the study. Of these, 31 798 (75.4%) were diagnosed with the Dutch Lipid Clinic Network criteria, and 35 490 (84.2%) were from the WHO region of Europe. Median age of participants at entry in the registry was 46.2 years (IQR 34.3-58.0); median age at diagnosis of familial hypercholesterolaemia was 44.4 years (32.5-56.5), with 40.2% of participants younger than 40 years when diagnosed. Prevalence of cardiovascular risk factors increased progressively with age and varied by WHO region. Prevalence of coronary disease was 17.4% (2.1% for stroke and 5.2% for peripheral artery disease), increasing with concentrations of untreated LDL cholesterol, and was about two times lower in women than in men. Among patients receiving lipid-lowering medications, 16 803 (81.1%) were receiving statins and 3691 (21.2%) were on combination therapy, with greater use of more potent lipid-lowering medication in men than in women. Median LDL cholesterol was 5.43 mmol/L (IQR 4.32-6.72) among patients not taking lipid-lowering medications and 4.23 mmol/L (3.20-5.66) among those taking them. Among patients taking lipid-lowering medications, 2.7% had LDL cholesterol lower than 1.8 mmol/L; the use of combination therapy, particularly with three drugs and with proprotein convertase subtilisin-kexin type 9 inhibitors, was associated with a higher proportion and greater odds of having LDL cholesterol lower than 1.8 mmol/L. Compared with index cases, patients who were non-index cases were younger, with lower LDL cholesterol and lower prevalence of cardiovascular risk factors and cardiovascular diseases (all p, Pfizer Independent Grant for Learning Change [16157823]; Amgen; Merck Sharp Dohme; Sanofi-Aventis; Daiichi Sankyo; Regeneron; National Institute for Health Research (NIHR) Imperial Biomedical Research Centre, UK; NIHR; Czech Ministry of Health [NU20-02-00261]; Canadian Institutes of Health Research; Austrian Heart Foundation; Tyrolean Regional Government; Gulf Heart Association, The EAS FHSC is an academic initiative that has received funding from a Pfizer Independent Grant for Learning & Change 2014 (16157823) and from investigator-initiated research grants to the European Atherosclerosis Society-Imperial College London from Amgen, Merck Sharp & Dohme, Sanofi-Aventis, Daiichi Sankyo, and Regeneron. KKR acknowledges support from the National Institute for Health Research (NIHR) Imperial Biomedical Research Centre, UK. KID acknowledges support from a PhD Studentship from NIHR under the Applied Health Research programme for Northwest London, UK (the views expressed in this publication are those of the authors and not necessarily those of the National Health Service, the NIHR, or the Department of Health). TF was supported by a grant from the Czech Ministry of Health (NU20-02-00261). JG receives support from the Canadian Institutes of Health Research. The Austrian Familial Hypercholesterolaemia registry has been supported by funds from the Austrian Heart Foundation and the Tyrolean Regional Government. The Gulf Familial Hypercholesterolaemia registry was done under the auspices of the Gulf Heart Association.

Published

2021

12. Interspecies and in vitro-in vivo scaling for quantitative modeling of whole-body drug pharmacokinetics in patients: Application to the anticancer drug oxaliplatin.

Author

Catozzi S, Hill R, Li XM, Dulong S, Collard E, and Ballesta A

Subjects

Humans, Rats, Mice, Animals, Oxaliplatin, Models, Biological, Pharmacokinetics, Antineoplastic Agents pharmacokinetics

Abstract

Quantitative systems pharmacology holds the promises of integrating results from laboratory animals or in vitro human systems into the design of human pharmacokinetic/pharmacodynamic (PK/PD) models allowing for precision and personalized medicine. However, reliable and general in vitro-to-in vivo extrapolation and interspecies scaling methods are still lacking. Here, we developed a translational strategy for the anticancer drug oxaliplatin. Using ex vivo PK data in the whole blood of the mouse, rat, and human, a model representing the amount of platinum (Pt) in the plasma and in the red blood cells was designed and could faithfully fit each dataset independently. A "purely physiologically-based (PB)" scaling approach solely based on preclinical data failed to reproduce human observations, which were then included in the calibration. Investigating approaches in which one parameter was set as species-specific, whereas the others were computed by PB scaling laws, we concluded that allowing the Pt binding rate to plasma proteins to be species-specific permitted to closely fit all data, and guaranteed parameter identifiability. Such a strategy presenting the drawback of including all clinical datasets, we further identified a minimal subset of human data ensuring accurate model calibration. Next, a "whole body" model of oxaliplatin human PK was inferred from the ex vivo study. Its three remaining parameters were estimated, using one third of the available patient data. Remarkably, the model achieved a good fit to the training dataset and successfully reproduced the unseen observations. Such validation endorsed the legitimacy of our scaling methodology calling for its testing with other drugs., (© 2022 The Authors. CPT: Pharmacometrics & Systems Pharmacology published by Wiley Periodicals LLC on behalf of American Society for Clinical Pharmacology and Therapeutics.)

Published

2023

13. Sex and Circadian Timing Modulate Oxaliplatin Hematological and Hematopoietic Toxicities.

Author

Dulong S, de Souza LEB, Machowiak J, Peuteman B, Duvallet G, Boyenval D, Roth E, Asgarova A, Chang Y, Li XM, Foudi A, and Ballesta A

Abstract

Oxaliplatin was nearly twice as hematotoxic, with optimal circadian timing differing by 6 h, in women as compared to men with colorectal cancers. Hence, we investigated sex- and timing-related determinants of oxaliplatin hematopoietic toxicities in mice. Body-weight loss (BWL), blood cell counts, bone marrow cellularity (BMC) and seven flow-cytometry-monitored hematopoietic progenitor populations were evaluated 72 h after oxaliplatin chronotherapy administration (5 mg/kg). In control animals, circadian rhythms of circulating white blood cells showed a peak at ZT5 in both sexes, whereas BMC was maximum at ZT20 in males and ZT13h40 in females. All BM progenitor counts presented robust rhythms with phases around ZT3h30 in females, whereas only three of them rhythmically cycled in males with a ≈ -6 h phase shift. In treated females, chronotoxicity rhythms occurred in BWL, WBC, BMC and all BM progenitors with the best timing at ZT15, ZT21, ZT15h15 and ZT14h45, respectively. In males, almost no endpoints showed circadian rhythms, BWL and WBC toxicity being minimal, albeit with a substantial drop in BM progenitors. Increasing dose (10 mg/kg) in males induced circadian rhythms in BWL and WBC but not in BM endpoints. Our results suggest complex and sex-specific clock-controlled regulation of the hematopoietic system and its response to oxaliplatin.

Published

2022

14. Model learning to identify systemic regulators of the peripheral circadian clock.

Author

Martinelli J, Dulong S, Li XM, Teboul M, Soliman S, Lévi F, Fages F, and Ballesta A

Subjects

Animals, Circadian Rhythm, Gene Expression Regulation, Humans, Mice, Circadian Clocks genetics

Abstract

Motivation: Personalized medicine aims at providing patient-tailored therapeutics based on multi-type data toward improved treatment outcomes. Chronotherapy that consists in adapting drug administration to the patient's circadian rhythms may be improved by such approach. Recent clinical studies demonstrated large variability in patients' circadian coordination and optimal drug timing. Consequently, new eHealth platforms allow the monitoring of circadian biomarkers in individual patients through wearable technologies (rest-activity, body temperature), blood or salivary samples (melatonin, cortisol) and daily questionnaires (food intake, symptoms). A current clinical challenge involves designing a methodology predicting from circadian biomarkers the patient peripheral circadian clocks and associated optimal drug timing. The mammalian circadian timing system being largely conserved between mouse and humans yet with phase opposition, the study was developed using available mouse datasets., Results: We investigated at the molecular scale the influence of systemic regulators (e.g. temperature, hormones) on peripheral clocks, through a model learning approach involving systems biology models based on ordinary differential equations. Using as prior knowledge our existing circadian clock model, we derived an approximation for the action of systemic regulators on the expression of three core-clock genes: Bmal1, Per2 and Rev-Erbα. These time profiles were then fitted with a population of models, based on linear regression. Best models involved a modulation of either Bmal1 or Per2 transcription most likely by temperature or nutrient exposure cycles. This agreed with biological knowledge on temperature-dependent control of Per2 transcription. The strengths of systemic regulations were found to be significantly different according to mouse sex and genetic background., Availability and Implementation: https://gitlab.inria.fr/julmarti/model-learning-mb21eccb., Supplementary Information: Supplementary data are available at Bioinformatics online., (© The Author(s) 2021. Published by Oxford University Press.)

Published

2021

15. Chronic circadian disruption modulates breast cancer stemness and immune microenvironment to drive metastasis in mice.

Author

Hadadi E, Taylor W, Li XM, Aslan Y, Villote M, Rivière J, Duvallet G, Auriau C, Dulong S, Raymond-Letron I, Provot S, Bennaceur-Griscelli A, and Acloque H

Subjects

Animals, Breast Neoplasms genetics, Breast Neoplasms immunology, Cell Transformation, Neoplastic drug effects, Chronic Disease, Chronobiology Disorders genetics, Chronobiology Disorders immunology, Cytokines genetics, Female, Gene Expression Regulation, Immunosuppression Therapy, Light Signal Transduction genetics, Mice, Mice, Transgenic, Neoplasm Metastasis prevention & control, Receptors, Interleukin-8B antagonists & inhibitors, Receptors, Interleukin-8B genetics, Breast Neoplasms pathology, Chronobiology Disorders complications, Tumor Microenvironment immunology

Abstract

Breast cancer is the most common type of cancer worldwide and one of the major causes of cancer death in women. Epidemiological studies have established a link between night-shift work and increased cancer risk, suggesting that circadian disruption may play a role in carcinogenesis. Here, we aim to shed light on the effect of chronic jetlag (JL) on mammary tumour development. To do this, we use a mouse model of spontaneous mammary tumourigenesis and subject it to chronic circadian disruption. We observe that circadian disruption significantly increases cancer-cell dissemination and lung metastasis. It also enhances the stemness and tumour-initiating potential of tumour cells and creates an immunosuppressive shift in the tumour microenvironment. Finally, our results suggest that the use of a CXCR2 inhibitor could correct the effect of JL on cancer-cell dissemination and metastasis. Altogether, our data provide a conceptual framework to better understand and manage the effects of chronic circadian disruption on breast cancer progression.

Published

2020

16. Dosing time dependent in vitro pharmacodynamics of Everolimus despite a defective circadian clock.

Author

Zhang Y, Giacchetti S, Parouchev A, Hadadi E, Li X, Dallmann R, Xandri-Monje H, Portier L, Adam R, Lévi F, Dulong S, and Chang Y

Subjects

ARNTL Transcription Factors metabolism, Apoptosis drug effects, Cell Cycle drug effects, Cell Proliferation drug effects, Cyclin D1 metabolism, Cyclin D3 metabolism, Dose-Response Relationship, Drug, Humans, MCF-7 Cells, Phosphorylation drug effects, Retinoblastoma Protein metabolism, Serum metabolism, TOR Serine-Threonine Kinases metabolism, Time Factors, Circadian Clocks drug effects, Everolimus administration & dosage, Everolimus pharmacology

Abstract

Everolimus (EV), a rapamycin analogue mTOR inhibitor, is used in the clinic to treat Estrogen positive (ER + ) breast cancer in order to avoid the resistance to hormonotherapy. Here, we investigated whether EV efficacy varied according to administration timing by using the ER + breast cancer cell line MCF-7 as model system. Our results showed that instead of apoptosis, EV induced a G0/G1 phase blockage of MCF-7 cells. Following serum shock, MCF-7 cells displayed a statistically significant 24h rhythm of mammalian target of Rapamycin (mTOR) activity, but perturbed circadian clock genes oscillations. Interestingly, the different delivery schedule of EV presented different efficacy in G0/G1 phase blockage in serum shocked MCF-7 cells. Moreover, serum shock induced also a circadian-like oscillation in expression or activity of several important G1 phase progression proteins, such as Cyclin D1 and phosphorylated Retinoblastoma protein (RB). Inhibition mTOR activity by EV reduced Cyclin D1 and Cyclin D3 protein level as well as RB phosphorylation level. Taken together, the results indicated that serum shock synchronization induced a circadian oscillation in mTOR activity in MCF-7 cells, which rhythmically regulated the synthesis or phosphorylation of key G1 progression proteins, such as Cyclin D1 and phosphorylated RB, ultimately resulting in different G0/G1 blockage efficiency according to different EV administration timing.

Published

2018

17. Identification of Circadian Determinants of Cancer Chronotherapy through In Vitro Chronopharmacology and Mathematical Modeling.

Author

Dulong S, Ballesta A, Okyar A, and Lévi F

Subjects

Animals, Apoptosis drug effects, Apoptosis genetics, Camptothecin analogs & derivatives, Camptothecin pharmacology, Camptothecin therapeutic use, Cell Line, Tumor, Circadian Clocks drug effects, Circadian Clocks genetics, DNA Topoisomerases, Type I metabolism, Gene Expression Regulation, Neoplastic drug effects, Humans, In Vitro Techniques, Irinotecan, Mice, Neoplasms genetics, Neoplasms metabolism, Antineoplastic Agents pharmacology, Antineoplastic Agents therapeutic use, Drug Chronotherapy, Models, Theoretical, Neoplasms drug therapy

Abstract

Cancer chronotherapy aims at enhancing tolerability and efficacy of anticancer drugs through their delivery according to circadian clocks. However, mouse and patient data show that lifestyle, sex, genetics, drugs, and cancer can modify both host circadian clocks and metabolism pathways dynamics, and thus the optimal timing of drug administration. The mathematical modeling of chronopharmacology could indeed help moderate optimal timing according to patient-specific determinants. Here, we combine in vitro and in silico methods, in order to characterize the critical molecular pathways that drive the chronopharmacology of irinotecan, a topoisomerase I inhibitor with complex metabolism and known activity against colorectal cancer. Large transcription rhythms moderated drug bioactivation, detoxification, transport, and target in synchronized colorectal cancer cell cultures. These molecular rhythms translated into statistically significant changes in pharmacokinetics and pharmacodynamics according to in vitro circadian drug timing. The top-up of the multiple coordinated chronopharmacology pathways resulted in a four-fold difference in irinotecan-induced apoptosis according to drug timing. Irinotecan cytotoxicity was directly linked to clock gene BMAL1 expression: The least apoptosis resulted from drug exposure near BMAL1 mRNA nadir (P < 0.001), whereas clock silencing through siBMAL1 exposure ablated all the chronopharmacology mechanisms. Mathematical modeling highlighted circadian bioactivation and detoxification as the most critical determinants of irinotecan chronopharmacology. In vitro-in silico systems chronopharmacology is a new powerful methodology for identifying the main mechanisms at work in order to optimize circadian drug delivery., (©2015 American Association for Cancer Research.)

Published

2015

18. Functional genomics identify Birc5/survivin as a candidate gene involved in the chronotoxicity of cyclin-dependent kinase inhibitors.

Author

Siffroi-Fernandez S, Dulong S, Li XM, Filipski E, Gréchez-Cassiau A, Peteri-Brünback B, Meijer L, Lévi F, Teboul M, and Delaunay F

Subjects

Animals, Antineoplastic Agents toxicity, Cell Cycle drug effects, Cell Line, Tumor, Colon cytology, Colon metabolism, Cyclin-Dependent Kinases metabolism, Inhibitor of Apoptosis Proteins metabolism, Intestinal Mucosa cytology, Intestinal Mucosa metabolism, Male, Mice, Mice, Inbred C57BL, Mitosis drug effects, Mitosis genetics, Protein Kinase Inhibitors toxicity, Purines pharmacology, RNA, Small Interfering genetics, Repressor Proteins metabolism, Roscovitine, Survivin, Antineoplastic Agents pharmacology, Circadian Rhythm, Cyclin-Dependent Kinases antagonists & inhibitors, Inhibitor of Apoptosis Proteins genetics, Protein Kinase Inhibitors pharmacology, Repressor Proteins genetics, Transcriptome

Abstract

The circadian timing system orchestrates most of mammalian physiology and behavior in synchrony with the external light/dark cycle. This regulation is achieved through endogenous clocks present in virtually all body cells, where they control key cellular processes, including metabolism, transport, and the cell cycle. Consistently, it has been observed in preclinical cancer models that both the efficacy and toxicity of most chemotherapeutic drugs depend on their time of administration. To further explore the molecular basis underlying the link between the circadian timing system and the cellular response to anticancer drugs, we investigated the circadian transcriptome and CDK inhibitor toxicity in colon mucosa cells. We first show here that among 181 circadian transcripts, approximately 30% of them drive the cell cycle in the healthy mouse colon mucosa, with a majority peaking during the early resting phase. The identification of 26 mitotic genes within this cluster further indicated that the transcriptional coordination of mitosis by the circadian clock participates in the gating of cell division in this tissue. Subsequent selective siRNA-mediated silencing of these 26 targets revealed that low expression levels of the mitotic and anti-apoptotic gene Birc5/survivin significantly and specifically increased the sensitivity of colon epithelial cells to CDK inhibitors. By identifying Birc5/survivin as a potential determinant for the circadian modulation of CDK inhibitor toxicity, these data provide a mechanistic basis for the preclinical development of future CDK inhibitor-based chronotherapeutic strategies.

Published

2014

19. A circadian clock transcription model for the personalization of cancer chronotherapy.

Author

Li XM, Mohammad-Djafari A, Dumitru M, Dulong S, Filipski E, Siffroi-Fernandez S, Mteyrek A, Scaglione F, Guettier C, Delaunay F, and Lévi F

Subjects

ARNTL Transcription Factors genetics, Animals, Camptothecin administration & dosage, Colonic Neoplasms drug therapy, Colonic Neoplasms genetics, Colonic Neoplasms metabolism, Female, Gene Expression Regulation, Neoplastic, Irinotecan, Liver Neoplasms, Experimental genetics, Liver Neoplasms, Experimental metabolism, Male, Mice, Mice, Inbred C57BL, Mice, Inbred CBA, Mice, Inbred DBA, Models, Biological, Nuclear Receptor Subfamily 1, Group D, Member 1 genetics, Period Circadian Proteins biosynthesis, Period Circadian Proteins genetics, Period Circadian Proteins metabolism, Precision Medicine methods, RNA, Messenger biosynthesis, RNA, Messenger genetics, Camptothecin analogs & derivatives, Chronotherapy methods, Circadian Clocks genetics, Liver Neoplasms, Experimental drug therapy, Topoisomerase I Inhibitors administration & dosage

Abstract

Circadian timing of anticancer medications has improved treatment tolerability and efficacy several fold, yet with intersubject variability. Using three C57BL/6-based mouse strains of both sexes, we identified three chronotoxicity classes with distinct circadian toxicity patterns of irinotecan, a topoisomerase I inhibitor active against colorectal cancer. Liver and colon circadian 24-hour expression patterns of clock genes Rev-erbα and Bmal1 best discriminated these chronotoxicity classes, among 27 transcriptional 24-hour time series, according to sparse linear discriminant analysis. An 8-hour phase advance was found both for Rev-erbα and Bmal1 mRNA expressions and for irinotecan chronotoxicity in clock-altered Per2(m/m) mice. The application of a maximum-a-posteriori Bayesian inference method identified a linear model based on Rev-erbα and Bmal1 circadian expressions that accurately predicted for optimal irinotecan timing. The assessment of the Rev-erbα and Bmal1 regulatory transcription loop in the molecular clock could critically improve the tolerability of chemotherapy through a mathematical model-based determination of host-specific optimal timing., (©2013 AACR.)

Published

2013

20. A combined experimental and mathematical approach for molecular-based optimization of irinotecan circadian delivery.

Author

Ballesta A, Dulong S, Abbara C, Cohen B, Okyar A, Clairambault J, and Levi F

Subjects

Antineoplastic Agents, Phytogenic pharmacokinetics, Antineoplastic Agents, Phytogenic pharmacology, Caco-2 Cells, Camptothecin administration & dosage, Camptothecin pharmacokinetics, Camptothecin pharmacology, Circadian Rhythm Signaling Peptides and Proteins biosynthesis, Circadian Rhythm Signaling Peptides and Proteins genetics, Circadian Rhythm Signaling Peptides and Proteins metabolism, Computational Biology, DNA Topoisomerases, Type I metabolism, Drug Administration Schedule, Gene Expression Profiling, Gene Expression Regulation, Neoplastic drug effects, Humans, Irinotecan, Multidrug Resistance-Associated Protein 2, RNA, Messenger biosynthesis, RNA, Messenger genetics, Antineoplastic Agents, Phytogenic administration & dosage, Camptothecin analogs & derivatives, Circadian Rhythm physiology, Drug Chronotherapy, Models, Biological

Abstract

Circadian timing largely modifies efficacy and toxicity of many anticancer drugs. Recent findings suggest that optimal circadian delivery patterns depend on the patient genetic background. We present here a combined experimental and mathematical approach for the design of chronomodulated administration schedules tailored to the patient molecular profile. As a proof of concept we optimized exposure of Caco-2 colon cancer cells to irinotecan (CPT11), a cytotoxic drug approved for the treatment of colorectal cancer. CPT11 was bioactivated into SN38 and its efflux was mediated by ATP-Binding-Cassette (ABC) transporters in Caco-2 cells. After cell synchronization with a serum shock defining Circadian Time (CT) 0, circadian rhythms with a period of 26 h 50 (SD 63 min) were observed in the mRNA expression of clock genes REV-ERBα, PER2, BMAL1, the drug target topoisomerase 1 (TOP1), the activation enzyme carboxylesterase 2 (CES2), the deactivation enzyme UDP-glucuronosyltransferase 1, polypeptide A1 (UGT1A1), and efflux transporters ABCB1, ABCC1, ABCC2 and ABCG2. DNA-bound TOP1 protein amount in presence of CPT11, a marker of the drug PD, also displayed circadian variations. A mathematical model of CPT11 molecular pharmacokinetics-pharmacodynamics (PK-PD) was designed and fitted to experimental data. It predicted that CPT11 bioactivation was the main determinant of CPT11 PD circadian rhythm. We then adopted the therapeutics strategy of maximizing efficacy in non-synchronized cells, considered as cancer cells, under a constraint of maximum toxicity in synchronized cells, representing healthy ones. We considered exposure schemes in the form of an initial concentration of CPT11 given at a particular CT, over a duration ranging from 1 to 27 h. For any dose of CPT11, optimal exposure durations varied from 3h40 to 7h10. Optimal schemes started between CT2h10 and CT2h30, a time interval corresponding to 1h30 to 1h50 before the nadir of CPT11 bioactivation rhythm in healthy cells.

Published

2011

21. Sex and dosing-time dependencies in irinotecan-induced circadian disruption.

Author

Ahowesso C, Li XM, Zampera S, Peteri-Brunbäck B, Dulong S, Beau J, Hossard V, Filipski E, Delaunay F, Claustrat B, and Lévi F

Subjects

Animals, Antineoplastic Agents adverse effects, Body Temperature drug effects, CLOCK Proteins genetics, CLOCK Proteins metabolism, Camptothecin administration & dosage, Camptothecin adverse effects, Camptothecin pharmacology, Corticosterone blood, Drug Administration Schedule, Female, Gene Expression Regulation physiology, Irinotecan, Liver metabolism, Male, Mice, Motor Activity drug effects, Antineoplastic Agents administration & dosage, Antineoplastic Agents pharmacology, Camptothecin analogs & derivatives, Circadian Rhythm drug effects, Sex Characteristics

Abstract

Circadian disruption accelerates malignant growth; thus, it should be avoided in anticancer therapy. The circadian disruptive effects of irinotecan, a topoisomerase I inhibitor, was investigated according to dosing time and sex. In previous work, irinotecan achieved best tolerability following dosing at zeitgeber time (ZT) 11 in male and ZT15 in female mice, whereas worst toxicity corresponded to treatment at ZT23 and ZT3 in male and female mice, respectively. Here, irinotecan (50 mg/kg intravenous [i.v.]) was delivered at the sex-specific optimal or worst circadian timing in male and female B6D2F1 mice. Circadian disruption was assessed with rest-activity, body temperature, plasma corticosterone, and liver mRNA expressions of clock genes Rev-erbα, Per2, and Bmal1. Baseline circadian rhythms in rest-activity, body temperature, and plasma corticosterone were more prominent in females as compared to males. Severe circadian disruption was documented for all physiology and molecular clock endpoints in female mice treated at the ZT of worst tolerability. Conversely, irinotecan administration at the ZT of best tolerability induced slight alteration of circadian physiology and clock-gene expression patterns in female mice. In male mice, irinotecan produced moderate alterations of circadian physiology and clock-gene expression patterns, irrespective of treatment ZT. However, the average expression of Rev-erbα, Per2, and Bmal1 were down-regulated 2- to 10-fold with irinotecan at the worst ZT, while being minimally or unaffected at the best ZT, irrespective of sex. Corticosterone secretion increased acutely within 2 h with a sex-specific response pattern, resulting in a ZT-dependent phase-advance or -delay in both sex. The mRNA expressions of irinotecan clock-controlled metabolism genes Ce2, Ugt1a1, and Top1 were unchanged or down-regulated according to irinotecan timing and sex. This study shows that the circadian timing system represents an important toxicity target of irinotecan in female mice, where circadian disruption persists after wrongly timed treatment. As a result, the mechanisms underling cancer chronotherapeutics are expectedly more susceptible to disruption in females as compared to males. Thus, the optimal circadian timing of chemotherapy requires precise determination according to sex, and should involve the noninvasive monitoring of circadian biomarkers.

Published

2011

22. Cancer inhibition through circadian reprogramming of tumor transcriptome with meal timing.

Author

Li XM, Delaunay F, Dulong S, Claustrat B, Zampera S, Fujii Y, Teboul M, Beau J, and Lévi F

Subjects

Animal Feed, Animals, Body Temperature, Body Weight, Circadian Rhythm, Disease Progression, Gene Expression Regulation, Neoplastic, Liver metabolism, Male, Mice, Neoplasms pathology, Oligonucleotide Array Sequence Analysis, Pancreatic Neoplasms metabolism, Reverse Transcriptase Polymerase Chain Reaction, Gene Expression Profiling, Neoplasms therapy

Abstract

Circadian disruption accelerates cancer progression, whereas circadian reinforcement could halt it. Mice with P03 pancreatic adenocarcinoma (n = 77) were synchronized and fed ad libitum (AL) or with meal timing (MT) from Zeitgeber time (ZT) 2 to ZT6 with normal or fat diet. Tumor gene expression profiling was determined with DNA microarrays at endogenous circadian time (CT) 4 and CT16. Circadian mRNA expression patterns were determined for clock genes Rev-erbalpha, Per2, and Bmal1, cellular stress genes Hspa8 and Cirbp, and cyclin A2 gene Ccna2 in liver and tumor. The 24-hour patterns in telemetered rest-activity and body temperature and plasma corticosterone and insulin-like growth factor-I (IGF-I) were assessed. We showed that MT inhibited cancer growth by approximately 40% as compared with AL (P = 0.011) irrespective of calorie intake. Clock gene transcription remained arrhythmic in tumors irrespective of feeding schedule or diet. Yet, MT upregulated or downregulated the expression of 423 tumor genes, according to CT. Moreover, 36 genes involved in cellular stress, cell cycle, and metabolism were upregulated at one CT and downregulated 12 h apart. MT induced >10-fold circadian expression of Hspa8, Cirbp, and Ccna2 in tumors. Corticosterone or IGF-I patterns played no role in tumor growth inhibition. In contrast, MT consistently doubled the circadian amplitude of body temperature. Peak and trough respectively corresponded to peak expressions of Hspa8 and Cirbp in tumors. The reinforcement of the host circadian timing system with MT induced 24-hour rhythmic expression of critical genes in clock-deficient tumors, which translated into cancer growth inhibition. Targeting circadian clocks represents a novel potential challenge for cancer therapeutics., ((c)2010 AACR.)

Published

2010

23. Circadian timing in cancer treatments.

Author

Lévi F, Okyar A, Dulong S, Innominato PF, and Clairambault J

Subjects

Animals, Antineoplastic Agents pharmacokinetics, Antineoplastic Agents therapeutic use, Apoptosis, Biological Clocks, Cell Cycle, DNA Repair, Drug Delivery Systems, Humans, Models, Theoretical, Precision Medicine, Time Factors, Circadian Rhythm drug effects, Neoplasms drug therapy

Abstract

The circadian timing system is composed of molecular clocks, which drive 24-h changes in xenobiotic metabolism and detoxification, cell cycle events, DNA repair, apoptosis, and angiogenesis. The cellular circadian clocks are coordinated by endogenous physiological rhythms, so that they tick in synchrony in the host tissues that can be damaged by anticancer agents. As a result, circadian timing can modify 2- to 10-fold the tolerability of anticancer medications in experimental models and in cancer patients. Improved efficacy is also seen when drugs are given near their respective times of best tolerability, due to (a) inherently poor circadian entrainment of tumors and (b) persistent circadian entrainment of healthy tissues. Conversely, host clocks are disrupted whenever anticancer drugs are administered at their most toxic time. On the other hand, circadian disruption accelerates experimental and clinical cancer processes. Gender, circadian physiology, clock genes, and cell cycle critically affect outcome on cancer chronotherapeutics. Mathematical and systems biology approaches currently develop and integrate theoretical, experimental, and technological tools in order to further optimize and personalize the circadian administration of cancer treatments.

Published

2010

24. Altered Stra13 and Dec2 circadian gene expression in hypoxic cells.

Author

Guillaumond F, Lacoche S, Dulong S, Grechez-Cassiau A, Filipski E, Li XM, Lévi F, Berra E, Delaunay F, and Teboul M

Subjects

ARNTL Transcription Factors, Animals, Basic Helix-Loop-Helix Transcription Factors metabolism, CLOCK Proteins, Cell Hypoxia genetics, Circadian Rhythm drug effects, Cobalt toxicity, DNA-Binding Proteins genetics, Fibroblasts drug effects, Fibroblasts metabolism, Gene Expression drug effects, Homeodomain Proteins metabolism, Hypoxia-Inducible Factor 1 genetics, Hypoxia-Inducible Factor 1 metabolism, Male, Mice, Mice, Inbred Strains, Nuclear Receptor Subfamily 1, Group D, Member 1, Promoter Regions, Genetic, Receptors, Cytoplasmic and Nuclear genetics, Trans-Activators antagonists & inhibitors, Trans-Activators genetics, Transcription Factors metabolism, Transcriptional Activation, Basic Helix-Loop-Helix Transcription Factors genetics, Bone Neoplasms genetics, Circadian Rhythm genetics, Gene Expression Regulation, Neoplastic, Homeodomain Proteins genetics, Osteosarcoma genetics, Transcription Factors genetics

Abstract

The circadian system regulates rhythmically most of the mammalian physiology in synchrony with the environmental light/dark cycle. Alteration of circadian clock gene expression has been associated with tumour progression but the molecular links between the two mechanisms remain poorly defined. Here we show that Stra13 and Dec2, two circadian transcriptional regulators which play a crucial role in cell proliferation and apoptosis are overexpressed and no longer rhythmic in serum shocked fibroblasts treated with CoCl(2,) a substitute of hypoxia. This effect is associated with a loss of circadian expression of the clock genes Rev-erbalpha and Bmal1, and the clock-controlled gene Dbp. Consistently, cotransfection assays demonstrate that STRA13 and DEC2 both antagonize CLOCK:BMAL1 dependent transactivation of the Rev-erbalpha and Dbp promoters. Using a transplantable osteosarcoma tumour model, we show that hypoxia is associated with altered circadian expression of Stra13, Dec2, Rev-erbalpha, Bmal1 and Dbp in vivo. These observations collectively support the notion that overexpression of Stra13 and Dec2 links hypoxia signalling to altered circadian clock gene expression.

Published

2008

25. [Circadian control of muscle transcriptome].

Author

Dulong S, Delaunay F, and Lévi F

Subjects

Animals, Biological Clocks, Gene Expression Regulation, Humans, Circadian Rhythm, Gene Expression Profiling, Muscle, Skeletal physiology

Published

2008

26. Characterization of SLC26A9, facilitation of Cl(-) transport by bicarbonate.

Author

Loriol C, Dulong S, Avella M, Gabillat N, Boulukos K, Borgese F, and Ehrenfeld J

Subjects

4,4'-Diisothiocyanostilbene-2,2'-Disulfonic Acid pharmacology, Animals, Antiporters genetics, COS Cells, Calcium Signaling drug effects, Chloride Channels metabolism, Chloride-Bicarbonate Antiporters metabolism, Chlorocebus aethiops, Gene Expression Regulation drug effects, Humans, Intracellular Space drug effects, Intracellular Space metabolism, Ion Channel Gating drug effects, Ion Transport drug effects, Oocytes drug effects, Oocytes metabolism, Permeability drug effects, RNA, Complementary metabolism, Sulfate Transporters, Transduction, Genetic, Xenopus, Antiporters metabolism, Bicarbonates metabolism, Chlorides metabolism

Abstract

SLC26 family members are anionic transporters involved in Cl(-) and HCO(3)(-) absorption or secretion in epithelia. SLC26A9, preferentially expressed in the lung, is a poorly characterized member of this family. In this study, we investigated the transport properties of human SLC26A9 to determine its functional and pharmacological characteristics. SLC26A9 protein expression results in the appearance of an anionic current exhibiting an apparently linear current/voltage relationship and increases in (36)Cl influxes and effluxes. The sequences of conductivity, Cl(-) >I(-) > NO(3)(-) >/= gluconate > SO(4) (2-) and selectivity (P(x)/P(CI)), I(-) > NO(3)(-) > Cl(-) > gluconate > SO(4)(2-) are found. Cl(-) channel inhibitors DIDS and NS 3623 inhibit SLC26A9 associated currents while the specific CFTR inhibitor (CFTR(inh)-172) or glybenclamide has little effect. Elevation of intracellular cAMP (a CFTR activator) is also ineffective whereas increasing intracellular calcium blocks the SLC26A9 associated currents. The HCO(3)(-) conductance mediated by the SLC26A9 protein expression is low and no intracellular pHi changes are detectable under conditions favoring a Cl(-)/HCO(3)(-) exchange. However, the presence of HCO(3)(-)/CO(2) stimulates the Cl(-)-transporting activity of SLC26A9 in Xenopus laevis oocytes or SLC26A9-transduced COS-7 cells. As an important initial step in characterizing SLC26A9 function, we conclude that SLC26A9 is a Cl(-) channel and we suggest that HCO(3)(-) acts as a modulator of the channel. SLC26A9 physiological role in airway epithelia and its potential interaction with CFTR remain to be elucidated., (Copyright 2008 S. Karger AG, Basel.)

Published

2008

27. Involvement of the calcium-dependent proteolytic system in skeletal muscle aging.

Author

Dargelos E, Brulé C, Combaret L, Hadj-Sassi A, Dulong S, Poussard S, and Cottin P

Subjects

Animals, Biomarkers analysis, Calcium-Binding Proteins analysis, Calcium-Binding Proteins metabolism, Calpain analysis, Calpain metabolism, Male, Muscle, Skeletal chemistry, Rats, Rats, Sprague-Dawley, Aging metabolism, Calcium metabolism, Muscle, Skeletal metabolism, Protein Processing, Post-Translational

Abstract

Aging is associated with a progressive and involuntary loss of muscle mass also known as sarcopenia. This condition represents a major public health concern with high socio-economics implications. Although sarcopenia is well documented, the aetiology of this condition still remains poorly understood. Calpains are ubiquitous proteases regulated in part by a specific inhibitor, calpastatin. They are well known to have major implications in muscle growth and differentiation. The aim of the present study was to determine if this proteolytic system could be involved in the phenotype associated with sarcopenia. Calpains and calpastatin levels, subcellular distributions and activities were compared between muscles from 3 and 24 months old rats. Altogether, the results we obtained showed an overall increase in calpain activities associated with muscle aging. These findings suggest that the calcium-dependent proteolytic system is indeed involved in sarcopenia.

Published

2007

28. Enhancement of P2Y6-induced Cl- secretion by IL-13 and modulation of SK4 channels activity in human bronchial cells.

Author

Dulong S, Bernard K, and Ehrenfeld J

Subjects

Anions chemistry, Anions metabolism, Biological Transport drug effects, Bronchi cytology, Cell Differentiation, Cell Line, Cell Membrane Permeability drug effects, Chlorides chemistry, Clotrimazole pharmacology, Electrophysiology, Humans, Ionomycin pharmacology, Patch-Clamp Techniques, Time Factors, Uridine Diphosphate pharmacology, Bronchi drug effects, Bronchi metabolism, Chlorides metabolism, Interleukin-13 pharmacology, Intermediate-Conductance Calcium-Activated Potassium Channels metabolism, Receptors, Purinergic P2 metabolism

Abstract

Expression of functional P2Y(6) receptors was demonstrated in primary cultures of human bronchial cells (NHBE cells). P2Y(6) receptors were located only on the apical membranes of NHBE cells. Their stimulation by UDP induced a chloride secretion (short-circuit current) reflected by the development of two I(sc) components (I(fast) and I(late)). A pharmacological characterization of those two I(sc) components showed the involvement of CaCC and CFTR channel activity in I(fast) and I(late) respectively. I(fast) was also found to be under control of basolateral SK4 channels. Indeed, inhibition of SK4 channels opening by clotrimazole dramatically reduced I(fast) amplitude. The epithelial ion transporting phenotype depends on the cellular state of differentiation. As previously reported, we observed that Ultroser G increased the epithelial tightness and Na(+)-transport capacity while IL-13 switch the epithelial ion transport phenotype from a Na(+)-absorbing to a Cl(-)-secreting one. In our study, we report for the first time a change in the K(+) cell permeability associated to IL-13-induced cell differentiation. IL-13 treatment increased the-resting K(+) permeability as well as the Ca(2+)-dependent K(+) permeability stimulated by UDP or ionomycin. SK4 channels activity, underlying the Ca(2+)-dependent K(+) permeability was in particular increased by IL-13. The on/off effect of IL-13 on P2Y(6)-induced Cl-secretion may help to identify the molecular determinants responsible for the CaCC channel activity., (Copyright (c) 2007 S. Karger AG, Basel.)

Published

2007

29. Biologically active milli-calpain associated with caveolae is involved in a spatially compartmentalised signalling involving protein kinase C alpha and myristoylated alanine-rich C-kinase substrate (MARCKS).

Author

Goudenege S, Poussard S, Dulong S, and Cottin P

Subjects

Animals, Carcinogens pharmacology, Cell Compartmentation, Cell Fusion, Mice, Myoblasts cytology, Myristoylated Alanine-Rich C Kinase Substrate, Protein Kinase C-alpha, Tetradecanoylphorbol Acetate pharmacology, Calpain metabolism, Caveolae metabolism, Cytosol metabolism, Intracellular Signaling Peptides and Proteins metabolism, Membrane Proteins metabolism, Myoblasts metabolism, Protein Kinase C metabolism, Signal Transduction

Abstract

We have previously shown that calpain promotes myoblast fusion by acting on protein kinase C-alpha and the cytosolic phosphorylated form of MARCKS. In other cell types, various isoforms of calpain, PKC alpha and MARCKS were found associated with caveolae. These vesicular invaginations of the plasma membrane are essential for myoblast fusion and differentiation. We have isolated caveolae from myoblasts and studied the presence of calpain isoforms and their possible effects on signalling mediated by caveolae-associated PKC. Our results show that milli-calpain co-localizes with myoblast caveolae. Futhermore we provide evidence, using a calcium ionophore and a specific inhibitor of calpains (calpastatin peptide), that milli-calpain reduces the PKC alpha and MARCKS content in these structures. Purified milli-calpain causes the appearance of the active catalytic fragment of PKC alpha (PKM), without having an effect on MARCKS. Addition of phorbol myristate acetate, an activator of PKC, induces tranlocation of PKC alpha towards caveolae and results in a significant reduction of MARCKS associated with caveolae. This phenomenon is not observed when a PKC alpha inhibitor is added at the same time. We conclude that the presence of biologically active milli-calpain within myoblast caveolae induces, in a PKC alpha-dependent manner, MARCKS translocation towards the cytosol. Such a localised signalling event may be essential for myoblast fusion and differentiation.

Published

2005

30. Myristoylated alanine-rich C kinase substrate (MARCKS) is involved in myoblast fusion through its regulation by protein kinase Calpha and calpain proteolytic cleavage.

Author

Dulong S, Goudenege S, Vuillier-Devillers K, Manenti S, Poussard S, and Cottin P

Subjects

Animals, Cell Fusion, Cell Line, Cytoskeleton physiology, Intracellular Signaling Peptides and Proteins metabolism, Membrane Proteins metabolism, Mice, Muscle Development physiology, Myristoylated Alanine-Rich C Kinase Substrate, Protein Kinase C-alpha, Recombinant Proteins metabolism, Subcellular Fractions metabolism, Calpain metabolism, Intracellular Signaling Peptides and Proteins physiology, Membrane Proteins physiology, Myoblasts physiology, Protein Kinase C metabolism

Abstract

MARCKS (myristoylated alanine-rich C kinase substrate) is a major cytoskeletal protein substrate of PKC (protein kinase C) whose cellular functions are still unclear. However numerous studies have implicated MARCKS in the stabilization of cytoskeletal structures during cell differentiation. The present study was performed to investigate the potential role of Ca(2+)-dependent proteinases (calpains) during myogenesis via proteolysis of MARCKS. It was first demonstrated that MARCKS is a calpain substrate in vitro. Then, the subcellular expression of MARCKS was examined during the myogenesis process. Under such conditions, there was a significant decrease in MARCKS expression associated with the appearance of a 55 kDa proteolytic fragment at the time of intense fusion. The addition of calpastatin peptide, a specific calpain inhibitor, induced a significant decrease in the appearance of this fragment. Interestingly, MARCKS proteolysis was dependent of its phosphorylation by the conventional PKCalpha. Finally, ectopic expression of MARCKS significantly decreased the myoblast fusion process, while reduced expression of the protein with antisense oligonucleotides increased the fusion. Altogether, these data demonstrate that MARCKS proteolysis is necessary for the fusion of myoblasts and that cleavage of the protein by calpains is involved in this regulation.

Published

2004