Your search keyword '"Campesan M"' showing total 8 results

1. Mitochondrial Ca2+ homeostasis and ROS formation between heart injury and protection: 5.02

Author

Campesan, M., De Stefani, D., Mongillo, M., Zaglia, T., Menabò, R., and Di Lisa, F.

Published

2016

2. P561Inhibition of monoamine oxidases reduces doxorubicin-induced cardiomyocyte death

Author

Carpi, A., Campesan, M., Canton, M., Menabo, R., Pelicci, P.G., Giorgio, M., and Di Lisa, F.

Published

2012

3. Ranolazine protects from doxorubicin-induced oxidative stress and cardiac dysfunction

Author

Cg, Tocchetti, Carpi A, Coppola C, Quintavalle C, Rea D, Campesan M, Arcari A, Piscopo G, Cipresso C, Mg, Monti, De Lorenzo C, Arra C, Condorelli G, Fabio Di Lisa, Maurea N, Tocchetti, CARLO GABRIELE, Andrea, Carpi, Carmela, Coppola, Quintavalle, Cristina, Domenica, Rea, Marika, Campesan, Antonella, Arcari, Giovanna, Piscopo, Clemente, Cipresso, Monti, MARIA GAIA, DE LORENZO, Claudia, Claudio, Arra, Condorelli, Gerolama, Fabio Di, Lisa, and Nicola, Maurea

Subjects

Antibiotics, Antineoplastic, Reverse Transcriptase Polymerase Chain Reaction, Blotting, Western, Sodium, Connective Tissue Growth Factor, Real-Time Polymerase Chain Reaction, Cardiotoxicity, Piperazines, Mice, Inbred C57BL, Mice, Oxidative Stress, Ventricular Dysfunction, Left, Doxorubicin, Ranolazine, Natriuretic Peptide, Brain, Animals, Matrix Metalloproteinase 2, Acetanilides, Myocytes, Cardiac, RNA, Messenger, Enzyme Inhibitors, Poly(ADP-ribose) Polymerases, Reactive Oxygen Species, Atrial Natriuretic Factor, Ultrasonography

Abstract

AIMS: Doxorubicin is widely used against cancer; however, it can produce heart failure (HF). Among other hallmarks, oxidative stress is a major contributor to HF pathophysiology. The late INa inhibitor ranolazine has proven effective in treating experimental HF. Since elevated [Na+ ]i is present in failing myocytes, and has been recently linked with reactive oxygen species (ROS) production, our aim was to assess whether ranolazine prevents doxorubicin-induced cardiotoxicity, and whether blunted oxidative stress is a mechanism accounting for such protection. METHODS AND RESULT: In C57BL6 mice, doxorubicin treatment for 7 days produced LV dilation and decreased echo-measured fractional shortening (FS). Ranolazine (305 mg/kg/day) prevented LV dilation and dysfunction when co-administered with doxorubicin. Doxorubicin-induced cardiotoxicity was accompanied instead by elevations in atrial natriuretic peptide (ANP), BNP, connective tissue growth factor (CTGF), and matrix metalloproteinase 2 (MMP2) mRNAs, which were not elevated on co-treatment with ranolazine. Alterations in extracellular matrix remodelling were confirmed by an increase in interstitial collagen, which did not rise in ranolazine-co-treated hearts. Levels of poly(ADP-ribose) polymerase (PARP) and pro-caspase-3 measured by western blotting were lowered with doxorubicin, with increased cleavage of caspase-3, indicating activation of the proapoptotic machinery. Again, ranolazine prevented this activation. Furthermore, in HL-1 cardiomyocytes transfected with HyPer to monitor H2 O2 emission, besides reducing the extent of cell death, ranolazine prevented the occurrence of oxidative stress caused by doxorubicin. Interestingly, similar protective results were obtained with the Na+ /Ca2+ exchanger (NCX) inhibitor KB-R7943. CONCLUSIONS: Ranolazine protects against experimental doxorubicin cardiotoxicity. Such protection is accompanied by a reduction in oxidative stress, suggesting that INa modulates cardiac redox balance, resulting in functional and morphological derangements.

Published

2014

4. Poster session 3

Author

Nanka, O., primary, Krejci, E., additional, Pesevski, Z., additional, Sedmera, D., additional, Smart, N., additional, Rossdeutsch, A., additional, Dube, K. N., additional, Riegler, J., additional, Price, A. N., additional, Taylor, A., additional, Muthurangu, V., additional, Turner, M., additional, Lythgoe, M. F., additional, Riley, P. R., additional, Kryvorot, S., additional, Vladimirskaya, T., additional, Shved, I., additional, Schwarzl, M., additional, Seiler, S., additional, Huber, S., additional, Steendijk, P., additional, Maechler, H., additional, Truschnig-Wilders, M., additional, Pieske, B., additional, Post, H., additional, Caprio, C., additional, Baldini, A., additional, Chiavacci, E., additional, Dolfi, L., additional, Verduci, L., additional, Meghini, F., additional, Cremisi, F., additional, Pitto, L., additional, Kuan, T.-C., additional, Chen, M.-C., additional, Yang, T.-H., additional, Wu, W.-T., additional, Lin, C. S., additional, Rai, H., additional, Kumar, S., additional, Sharma, A. K., additional, Mastana, S., additional, Kapoor, A., additional, Pandey, C. M., additional, Agrawal, S., additional, Sinha, N., additional, Orlowska-Baranowska, E. H., additional, Placha, G., additional, Gora, J., additional, Baranowski, R., additional, Abramczuk, E., additional, Hryniewiecki, T., additional, Gaciong, Z., additional, Verschuren, J. J. W., additional, Wessels, J. A. M., additional, Trompet, S., additional, Stott, D. J., additional, Sattar, N., additional, Buckley, B., additional, Guchelaar, H. J., additional, Jukema, J. W., additional, Gharanei, M., additional, Hussain, A., additional, Mee, C. J., additional, Maddock, H. L., additional, Wijnen, W. J., additional, Van Den Oever, S., additional, Van Der Made, I., additional, Hiller, M., additional, Tijsen, A. J., additional, Pinto, Y. M., additional, Creemers, E. E., additional, Nikulina, S. U. Y., additional, Chernova, A., additional, Petry, A., additional, Rzymski, T., additional, Kracun, D., additional, Riess, F., additional, Pike, L., additional, Harris, A. L., additional, Gorlach, A., additional, Katare, R., additional, Oikawa, A., additional, Riu, F., additional, Beltrami, A. P., additional, Cesseli, D., additional, Emanueli, C., additional, Madeddu, P., additional, Zaglia, T., additional, Milan, G., additional, Franzoso, M., additional, Pesce, P., additional, Sarais, C., additional, Sandri, M., additional, Mongillo, M., additional, Butler, T. J., additional, Seymour, A.-M. L., additional, Ashford, D., additional, Jaffre, F., additional, Bussen, M., additional, Flohrschutz, I., additional, Martin, G. R., additional, Engelhardt, S., additional, Kararigas, G., additional, Nguyen, B. T., additional, Jarry, H., additional, Regitz-Zagrosek, V., additional, Van Bilsen, M., additional, Daniels, A., additional, Munts, C., additional, Janssen, B. J. A., additional, Van Der Vusse, G. J., additional, Van Nieuwenhoven, F. A., additional, Montalvo, C., additional, Villar, A. V., additional, Merino, D., additional, Garcia, R., additional, Llano, M., additional, Ares, M., additional, Hurle, M. A., additional, Nistal, J. F., additional, Dembinska-Kiec, A., additional, Beata Kiec-Wilk, B. K. W., additional, Anna Polus, A. P., additional, Urszula Czech, U. C., additional, Tatiana Konovaleva, T. K., additional, Gerd Schmitz, G. S., additional, Bertrand, L., additional, Balteau, M., additional, Timmermans, A., additional, Viollet, B., additional, Sakamoto, K., additional, Feron, O., additional, Horman, S., additional, Vanoverschelde, J. L., additional, Beauloye, C., additional, De Meester, C., additional, Martinez, E., additional, Martin, R., additional, Miana, M., additional, Jurado, R., additional, Gomez-Hurtado, N., additional, Bartolome, M. V., additional, San Roman, J. A., additional, Lahera, V., additional, Nieto, M. L., additional, Cachofeiro, V., additional, Rochais, F., additional, Sturny, R., additional, Mesbah, K., additional, Miquerol, L., additional, Kelly, R. G., additional, Messaoudi, S., additional, Gravez, B., additional, Tarjus, A., additional, Pelloux, V., additional, Samuel, J. L., additional, Delcayre, C., additional, Launay, J. M., additional, Clement, K., additional, Farman, N., additional, Jaisser, F., additional, Hadyanto, L., additional, Castellani, C., additional, Vescovo, G., additional, Ravara, B., additional, Tavano, R., additional, Pozzobon, M., additional, De Coppi, P., additional, Papini, E., additional, Vettor, R., additional, Thiene, G., additional, Angelini, A., additional, Meloni, M., additional, Caporali, A., additional, Cesselli, D., additional, Fortunato, O., additional, Avolio, E., additional, Schindler, R., additional, Simrick, S., additional, Brand, T., additional, Smart, N. S., additional, Herman, A., additional, Roura Ferrer, S., additional, Rodriguez Bago, J., additional, Soler-Botija, C., additional, Pujal, J. M., additional, Galvez-Monton, C., additional, Prat-Vidal, C., additional, Llucia-Valldeperas, A., additional, Blanco, J., additional, Bayes-Genis, A., additional, Foldes, G., additional, Maxime, M., additional, Ali, N. N., additional, Schneider, M. D., additional, Harding, S. E., additional, Reni, C., additional, Mangialardi, G., additional, De Pauw, A., additional, Sekkali, B., additional, Friart, A., additional, Ding, H., additional, Graffeuil, A., additional, Catalucci, D., additional, Balligand, J. L., additional, Azibani, F., additional, Tournoux, F., additional, Schlossarek, S., additional, Polidano, E., additional, Fazal, L., additional, Merval, R., additional, Carrier, L., additional, Chatziantoniou, C., additional, Buyandelger, B., additional, Linke, W., additional, Zou, P., additional, Kostin, S., additional, Ku, C., additional, Felkin, L., additional, Birks, E., additional, Barton, P., additional, Sattler, M., additional, Knoell, R., additional, Schroder, K., additional, Benkhoff, S., additional, Shimokawa, H., additional, Grisk, O., additional, Brandes, R. P., additional, Parepa, I. R., additional, Mazilu, L., additional, Suceveanu, A. I., additional, Suceveanu, A., additional, Rusali, L., additional, Cojocaru, L., additional, Matei, L., additional, Toringhibel, M., additional, Craiu, E., additional, Pires, A. L., additional, Pinho, M., additional, Pinho, S., additional, Sena, C., additional, Seica, R., additional, Leite-Moreira, A., additional, Dabroi, F., additional, Schiaffino, S., additional, Kiseleva, E., additional, Krukov, N., additional, Nikitin, O., additional, Ardatova, L., additional, Mourouzis, I., additional, Pantos, C., additional, Kokkinos, A. D., additional, Cokkinos, D. V., additional, Scoditti, E., additional, Massaro, M., additional, Carluccio, M. A., additional, Pellegrino, M., additional, Calabriso, N., additional, Gastaldelli, A., additional, Storelli, C., additional, De Caterina, R., additional, Lindner, D., additional, Zietsch, C., additional, Schultheiss, H.-P., additional, Tschope, C., additional, Westermann, D., additional, Everaert, B. R., additional, Nijenhuis, V. J., additional, Reith, F. C. M., additional, Hoymans, V. Y., additional, Timmermans, J. P., additional, Vrints, C. J., additional, Simova, I., additional, Mateev, H., additional, Katova, T., additional, Haralanov, L., additional, Dimitrov, N., additional, Mironov, N., additional, Golitsyn, S. P., additional, Sokolov, S. F., additional, Yuricheva, Y. U. A., additional, Maikov, E. B., additional, Shlevkov, N. B., additional, Rosenstraukh, L. V., additional, Chazov, E. I., additional, Radosinska, J., additional, Knezl, V., additional, Benova, T., additional, Slezak, J., additional, Urban, L., additional, Tribulova, N., additional, Virag, L., additional, Kristof, A., additional, Kohajda, Z. S., additional, Szel, T., additional, Husti, Z., additional, Baczko, I., additional, Jost, N., additional, Varro, A., additional, Sarusi, A., additional, Farkas, A. S., additional, Orosz, S. Z., additional, Forster, T., additional, Farkas, A., additional, Zakhrabova-Zwiauer, O. M., additional, Hardziyenka, M., additional, Nieuwland, R., additional, Tan, H. L., additional, Raaijmakers, A. J. A., additional, Bourgonje, V. J. A., additional, Kok, G. J. M., additional, Van Veen, A. A. B., additional, Anderson, M. E., additional, Vos, M. A., additional, Bierhuizen, M. F. A., additional, Benes, J., additional, Sebestova, B., additional, Ghouri, I. A., additional, Kemi, O. J., additional, Kelly, A., additional, Burton, F. L., additional, Smith, G. L., additional, Ozdemir, S., additional, Acsai, K., additional, Doisne, N., additional, Van Der Nagel, R., additional, Beekman, H. D. M., additional, Van Veen, T. A. B., additional, Sipido, K. R., additional, Antoons, G., additional, Harmer, S. C., additional, Mohal, J. S., additional, Kemp, D., additional, Tinker, A., additional, Beech, D., additional, Burley, D. S., additional, Cox, C. D., additional, Wann, K. T., additional, Baxter, G. F., additional, Wilders, R., additional, Verkerk, A., additional, Fragkiadaki, P., additional, Germanakis, G., additional, Tsarouchas, K., additional, Tsitsimpikou, C., additional, Tsardi, M., additional, George, D., additional, Tsatsakis, A., additional, Rodrigues, P., additional, Barros, C., additional, Najmi, A. K., additional, Khan, V., additional, Akhtar, M., additional, Pillai, K. K., additional, Mujeeb, M., additional, Aqil, M., additional, Bayliss, C. R., additional, Messer, A. E., additional, Leung, M.-C., additional, Ward, D., additional, Van Der Velden, J., additional, Poggesi, C., additional, Redwood, C. S., additional, Marston, S., additional, Vite, A., additional, Gandjbakhch, E., additional, Gary, F., additional, Fressart, V., additional, Leprince, P., additional, Fontaine, G., additional, Komajda, M., additional, Charron, P., additional, Villard, E., additional, Falcao-Pires, I., additional, Gavina, C., additional, Hamdani, N., additional, Stienen, G. J. M., additional, Niessens, H. W. M., additional, Leite-Moreira, A. F., additional, Paulus, W. J., additional, Memo, M., additional, Marston, S. B., additional, Vafiadaki, E., additional, Qian, J., additional, Arvanitis, D. A., additional, Sanoudou, D., additional, Kranias, E. G., additional, Elmstedt, N., additional, Lind, B., additional, Ferm-Widlund, K., additional, Westgren, M., additional, Brodin, L.-A., additional, Mansfield, C., additional, West, T., additional, Ferenczi, M., additional, Wijnker, P. J. M., additional, Foster, D. B., additional, Coulter, A., additional, Frazier, A., additional, Murphy, A. M., additional, Shah, M., additional, Sikkel, M. B., additional, Desplantez, T., additional, Collins, T. P., additional, O' Gara, P., additional, Lyon, A. R., additional, Macleod, K. T., additional, Ottesen, A. H., additional, Louch, W. E., additional, Carlson, C., additional, Landsverk, O. J. B., additional, Stridsberg, M., additional, Sjaastad, I., additional, Oie, E., additional, Omland, T., additional, Christensen, G., additional, Rosjo, H., additional, Cartledge, J., additional, Clark, L. A., additional, Ibrahim, M., additional, Siedlecka, U., additional, Navaratnarajah, M., additional, Yacoub, M. H., additional, Camelliti, P., additional, Terracciano, C. M., additional, Chester, A., additional, Gonzalez-Tendero, A., additional, Torre, I., additional, Garcia-Garcia, F., additional, Dopazo, J., additional, Gratacos, E., additional, Taylor, D., additional, Bhandari, S., additional, Seymour, A.-M., additional, Fliegner, D., additional, Jost, J., additional, Bugger, H., additional, Ventura-Clapier, R., additional, Carpi, A., additional, Campesan, M., additional, Canton, M., additional, Menabo, R., additional, Pelicci, P. G., additional, Giorgio, M., additional, Di Lisa, F., additional, Hancock, M., additional, Venturini, A., additional, Al-Shanti, N., additional, Stewart, C., additional, Ascione, R., additional, Angelini, G., additional, Suleiman, M.-S., additional, Kravchuk, E., additional, Grineva, E., additional, Galagudza, M., additional, Kostareva, A., additional, Bairamov, A., additional, Krychtiuk, K. A., additional, Watzke, L., additional, Kaun, C., additional, Demyanets, S., additional, Pisoni, J., additional, Kastl, S. P., additional, Huber, K., additional, Maurer, G., additional, Wojta, J., additional, Speidl, W. S., additional, Varga, Z. V., additional, Farago, N., additional, Zvara, A., additional, Kocsis, G. F., additional, Pipicz, M., additional, Csonka, C., additional, Csont, T., additional, Puskas, G. L., additional, Ferdinandy, P., additional, Klevstigova, M., additional, Silhavy, J., additional, Manakov, D., additional, Papousek, F., additional, Novotny, J., additional, Pravenec, M., additional, Kolar, F., additional, Novakova, O., additional, Novak, F., additional, Neckar, J., additional, Barallobre-Barreiro, J., additional, Didangelos, A., additional, Yin, X., additional, Fernandez-Caggiano, M., additional, Drozdov, I., additional, Willeit, P., additional, Domenech, N., additional, Mayr, M., additional, Lemoine, S., additional, Allouche, S., additional, Coulbault, L., additional, Galera, P., additional, Gerard, J. L., additional, Hanouz, J. L., additional, Suveren, E., additional, Whiteman, M., additional, Studneva, I. M., additional, Pisarenko, O., additional, Shulzhenko, V., additional, Serebryakova, L., additional, Tskitishvili, O., additional, Timoshin, A., additional, Fauconnier, J., additional, Meli, A. C., additional, Thireau, J., additional, Roberge, S., additional, Lompre, A. M., additional, Jacotot, E., additional, Marks, A. M., additional, Lacampagne, A., additional, Dietel, B., additional, Altendorf, R., additional, Daniel, W. G., additional, Kollmar, R., additional, Garlichs, C. D., additional, Parente, V., additional, Balasso, S., additional, Pompilio, G., additional, Colombo, G., additional, Milano, G., additional, Squadroni, L., additional, Cotelli, F., additional, Pozzoli, O., additional, Capogrossi, M. C., additional, Ajiro, Y., additional, Saegusa, N., additional, Iwade, K., additional, Giles, W. R., additional, Stafforini, D. M., additional, Spitzer, K. W., additional, Sirohi, R., additional, Candilio, L., additional, Babu, G., additional, Roberts, N., additional, Lawrence, D., additional, Sheikh, A., additional, Kolvekar, S., additional, Yap, J., additional, Hausenloy, D. J., additional, Yellon, D. M., additional, Aslam, M., additional, Rohrbach, S., additional, Schlueter, K.-D., additional, Piper, H. M., additional, Noll, T., additional, Guenduez, D., additional, Malinova, L., additional, Ryabukho, V. P., additional, Lyakin, D. V., additional, Denisova, T. P., additional, Montoro-Garcia, S., additional, Shantsila, E., additional, Lip, G. Y. H., additional, Kalaska, B., additional, Sokolowska, E., additional, Kaminski, K., additional, Szczubialka, K., additional, Kramkowski, K., additional, Mogielnicki, A., additional, Nowakowska, M., additional, Buczko, W., additional, Stancheva, N., additional, Mekenyan, E., additional, Gospodinov, K., additional, Tisheva, S., additional, Darago, A., additional, Rutkai, I., additional, Kalasz, J., additional, Czikora, A., additional, Orosz, P., additional, Bjornson, H. D., additional, Edes, I., additional, Papp, Z., additional, Toth, A., additional, Riches, K., additional, Warburton, P., additional, O'regan, D. J., additional, Ball, S. G., additional, Turner, N. A., additional, Wood, I. C., additional, Porter, K. E., additional, Kogaki, S., additional, Ishida, H., additional, Nawa, N., additional, Takahashi, K., additional, Baden, H., additional, Ichimori, H., additional, Uchikawa, T., additional, Mihara, S., additional, Miura, K., additional, Ozono, K., additional, Lugano, R., additional, Padro, T., additional, Garcia-Arguinzonis, M., additional, Badimon, L., additional, Ferraro, F., additional, Viner, R., additional, Ho, J., additional, Cutler, D., additional, Matchkov, V., additional, Aalkjaer, C., additional, Krijnen, P. A. J., additional, Hahn, N. E., additional, Kholova, I., additional, Sipkens, J. A., additional, Van Alphen, F. P., additional, Simsek, S., additional, Schalkwijk, C. G., additional, Van Buul, J. D., additional, Van Hinsbergh, V. W. M., additional, Niessen, H. W. M., additional, Caro, C. G., additional, Seneviratne, A., additional, Monaco, C., additional, Hou, D., additional, Singh, J., additional, Gilson, P., additional, Burke, M. G., additional, Heraty, K. B., additional, Krams, R., additional, Coppola, G., additional, Albrecht, K., additional, Schgoer, W., additional, Wiedemann, D., additional, Bonaros, N., additional, Steger, C., additional, Theurl, M., additional, Stanzl, U., additional, Kirchmair, R., additional, Amadesi, S., additional, Spinetti, G., additional, Cangiano, E., additional, Valgimigli, M., additional, Miller, A. M., additional, Cardinali, A., additional, Vierlinger, K., additional, Pagano, G., additional, Liccardo, D., additional, Zincarelli, C., additional, Femminella, G. D., additional, Lymperopoulos, A., additional, De Lucia, C., additional, Koch, W. J., additional, Leosco, D., additional, Rengo, G., additional, Hinkel, R., additional, Husada, W., additional, Trenkwalder, T., additional, Di, Q., additional, Lee, S., additional, Petersen, B., additional, Bock-Marquette, I., additional, Niemann, H., additional, Di Maio, M., additional, Kupatt, C., additional, Nourian, M., additional, Yassin, Z., additional, Kelishadi, R., additional, Memarian, S. H., additional, Heidari, A., additional, Leuner, A., additional, Poitz, D. M., additional, Brunssen, C., additional, Ravens, U., additional, Strasser, R. H., additional, Morawietz, H., additional, Vogt, F., additional, Grahl, A., additional, Flege, C., additional, Marx, N., additional, Borinski, M., additional, De Geest, B., additional, Jacobs, F., additional, Muthuramu, I., additional, Gordts, S. C., additional, Van Craeyveld, E., additional, Herijgers, P., additional, Weinert, S., additional, Medunjanin, S., additional, Herold, J., additional, Schmeisser, A., additional, Braun-Dullaeus, R. C., additional, Wagner, A. H., additional, Moeller, K., additional, Adolph, O., additional, Schwarz, M., additional, Schwale, C., additional, Bruehl, C., additional, Nobiling, R., additional, Wieland, T., additional, Schneider, S. W., additional, Hecker, M., additional, Cross, A., additional, Strom, A., additional, Cole, J., additional, Goddard, M., additional, Hultgardh-Nilsson, A., additional, Nilsson, J., additional, Mauri, C., additional, Mitkovskaya, N. P., additional, Kurak, T. A., additional, Oganova, E. G., additional, Shkrebneva, E. I., additional, Kot, Z. H. N., additional, Statkevich, T. V., additional, Molica, F., additional, Burger, F., additional, Matter, C. M., additional, Thomas, A., additional, Staub, C., additional, Zimmer, A., additional, Cravatt, B., additional, Pacher, P., additional, Steffens, S., additional, Blanco, R., additional, Sarmiento, R., additional, Parisi, C., additional, Fandino, S., additional, Blanco, F., additional, Gigena, G., additional, Szarfer, J., additional, Rodriguez, A., additional, Garcia Escudero, A., additional, Riccitelli, M. A., additional, Wantha, S., additional, Simsekyilmaz, S., additional, Megens, R. T., additional, Van Zandvoort, M. A., additional, Liehn, E., additional, Zernecke, A., additional, Klee, D., additional, Weber, C., additional, Soehnlein, O., additional, Lima, L. M., additional, Carvalho, M. G., additional, Gomes, K. B., additional, Santos, I. R., additional, Sousa, M. O., additional, Morais, C. A. S., additional, Oliveira, S. H. V., additional, Gomes, I. F., additional, Brandao, F. C., additional, Lamego, M. R. A., additional, Fornai, L., additional, Kiss, A., additional, Giskes, F., additional, Eijkel, G., additional, Fedrigo, M., additional, Valente, M. L., additional, Heeren, R. M. A., additional, Grdinic, A., additional, Vojvodic, D., additional, Djukanovic, N., additional, Grdinic, A. G., additional, Obradovic, S., additional, Majstorovic, I., additional, Rusovic, S., additional, Vucinic, Z., additional, Tavciovski, D., additional, Ostojic, M., additional, Lai, S.-C., additional, Chen, M.-Y., additional, Wu, H.-T., additional, Gouweleeuw, L., additional, Oberdorf-Maass, S. U., additional, De Boer, R. A., additional, Van Gilst, W. H., additional, Maass, A. H., additional, Van Gelder, I. C., additional, Benard, L., additional, Li, C., additional, Warren, D., additional, Shanahan, C. M., additional, Zhang, Q. P., additional, Bye, A., additional, Vettukattil, R., additional, Aspenes, S. T., additional, Giskeodegaard, G., additional, Gribbestad, I. S., additional, Wisloff, U., additional, Bathen, T. F., additional, Cubedo, J., additional, Alonso, R., additional, Mata, P., additional, Ivic, I., additional, Vamos, Z., additional, Cseplo, P., additional, Kosa, D., additional, Torok, O., additional, Hamar, J., additional, Koller, A., additional, Norita, K., additional, De Noronha, S. V., additional, Sheppard, M. N., additional, Amat-Roldan, I., additional, Iruretagoiena, I., additional, Psilodimitrakopoulos, S., additional, Crispi, F., additional, Artigas, D., additional, Loza-Alvarez, P., additional, Harrison, J. C., additional, Smart, S. D., additional, Besely, E. H., additional, Kelly, J. R., additional, Yao, Y., additional, Sammut, I. A., additional, Hoepfner, M., additional, Kuzyniak, W., additional, Sekhosana, E., additional, Hoffmann, B., additional, Litwinski, C., additional, Pries, A., additional, Ermilov, E., additional, Fontoura, D., additional, Lourenco, A. P., additional, Vasques-Novoa, F., additional, Pinto, J. 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Published

2012

5. Toll-like receptor 9 signaling after myocardial infarction: Role of p66ShcA adaptor protein.

Author

Baysa A, Maghazachi AA, Sand KL, Campesan M, Zaglia T, Mongillo M, Giorgio M, Di Lisa F, Gullestad L, Mariero LH, Vaage J, Valen G, and Stensløkken KO

Subjects

Animals, Mice, Adaptor Proteins, Signal Transducing metabolism, Inflammation, Mice, Inbred C57BL, Mice, Knockout, NF-kappa B metabolism, Src Homology 2 Domain-Containing, Transforming Protein 1 metabolism, Toll-Like Receptor 9 metabolism, Heart Failure, Myocardial Infarction metabolism, Myocardial Ischemia

Abstract

During myocardial infarction, cellular debris is released, causing a sterile inflammation via pattern recognition receptors. These reactions amplify damage and promotes secondary heart failure. The pattern recognition receptor, Toll-like receptor 9 (TLR9) detects immunogenic fragments of endogenous DNA, inducing inflammation by NFκB. The p66ShcA adaptor protein plays an important role in both ischemic myocardial damage and immune responses. We hypothesized that p66ShcA adaptor protein promotes DNA-sensing signaling via the TLR9 pathway after myocardial infarction. TLR9 protein expression increased in cardiac tissue from patients with end-stage heart failure due to ischemic heart disease. Myocardial ischemia in mice in vivo induced gene expression of key TLR9 pathway proteins (MyD88 and Unc93b1). In this model, a functional link between TLR9 and p66ShcA was revealed as; (i) ischemia-induced upregulation of TLR9 protein was abrogated in myocardium of p66ShcA knockout mice; (ii) when p66ShcA was overexpressed in NFkB reporter cells stably expressing TLR9, NFkB-activation increased during stimulation with the TLR9 agonist CpG B; (iii) in cardiac fibroblasts, p66ShcA overexpression caused TLR9 upregulation. Co-immunoprecipitation showed that ShcA proteins and TLR9 may be found in the same protein complex, which was dissipated upon TLR9 stimulation in vivo. A proximity assay confirmed the co-localization of TLR9 and ShcA proteins. The systemic immune response after myocardial ischemia was dampened in p66ShcA knockout mice as interleukin-4, -17 and -22 expression in mononuclear cells isolated from spleens was reduced. In conclusion, p66ShcA adaptor may be an interaction partner and a regulator of the TLR9 pathway post-infarction., Competing Interests: Declaration of competing interest No conflict of interest., (Copyright © 2023 The Authors. Published by Elsevier Inc. All rights reserved.)

Published

2023

6. Live Cell Imaging in Microfluidic Device Proves Resistance to Oxygen/Glucose Deprivation in Human Induced Pluripotent Stem Cell-Derived Cardiomyocytes.

Author

Martewicz S, Gabrel G, Campesan M, Canton M, Di Lisa F, and Elvassore N

Subjects

Animals, Cells, Cultured, Glucose deficiency, Glucose metabolism, Humans, Induced Pluripotent Stem Cells cytology, Induced Pluripotent Stem Cells metabolism, Oxygen metabolism, Rats, Rats, Sprague-Dawley, Glucose analysis, Induced Pluripotent Stem Cells chemistry, Microfluidic Analytical Techniques, Optical Imaging, Oxygen analysis

Abstract

Analyses of cellular responses to fast oxygen dynamics are challenging and require ad hoc technological solutions, especially when decoupling from liquid media composition is required. In this work, we present a microfluidic device specifically designed for culture analyses with high resolution and magnification objectives, providing full optical access to the cell culture chamber. This feature allows fluorescence-based assays, photoactivated surface chemistry, and live cell imaging under tightly controlled pO 2 environments. The device has a simple design, accommodates three independent cell cultures, and can be employed by users with basic cell culture training in studies requiring fast oxygen dynamics, defined media composition, and in-line data acquisition with optical molecular probes. We apply this technology to produce an oxygen/glucose deprived (OGD) environment and analyze cell mortality in murine and human cardiac cultures. Neonatal rat ventricular cardiomyocytes show an OGD time-dependent sensitivity, resulting in a robust and reproducible 66 ± 5% death rate after 3 h of stress. Applying an equivalent stress to human induced pluripotent stem cell-derived cardiomyocytes (hiPS-CMs) provides direct experimental evidence for fetal-like OGD-resistant phenotype. Investigation on the nature of such phenotype exposed large glycogen deposits. We propose a culture strategy aimed at depleting these intracellular energy stores and concurrently activate positive regulation of aerobic metabolic molecular markers. The observed process, however, is not sufficient to induce an OGD-sensitive phenotype in hiPS-CMs, highlighting defective development of mature aerobic metabolism in vitro.

Published

2018

7. The p66ShcA adaptor protein regulates healing after myocardial infarction.

Author

Baysa A, Sagave J, Carpi A, Zaglia T, Campesan M, Dahl CP, Bilbija D, Troitskaya M, Gullestad L, Giorgio M, Mongillo M, Di Lisa F, Vaage JI, and Valen G

Subjects

Aged, Animals, Blotting, Western, Female, Fluorescent Antibody Technique, Humans, Immunohistochemistry, Male, Matrix Metalloproteinase 2 biosynthesis, Mice, Mice, Inbred C57BL, Mice, Knockout, Middle Aged, Myocardial Infarction pathology, Myocardial Infarction physiopathology, Oxidative Stress physiology, Real-Time Polymerase Chain Reaction, Src Homology 2 Domain-Containing, Transforming Protein 1, Ventricular Remodeling physiology, Myocardial Infarction metabolism, Shc Signaling Adaptor Proteins metabolism

Abstract

Heart rupture and heart failure are deleterious complications of myocardial infarction. The ShcA gene encodes for three protein isoforms, p46-, p52- and p66ShcA. p66ShcA induces oxidative stress. We studied the role of p66ShcA post-infarction. Expression of p66ShcA was analyzed in myocardium of patients with stable angina (n = 11), in explanted hearts with end-stage ischemic heart failure (n = 9) and compared to non-failing hearts not suitable for donation (n = 7). p66ShcA was increased in the patients with stable angina, but not in the patients with end-stage heart failure. Mice (n = 105) were subjected to coronary artery ligation. p66ShcA expression and phosphorylation were evaluated over a 6-week period. p66ShcA expression increased transiently during the first weeks post-infarction. p66ShcA knockout mice (KO) were compared to wild type (n = 82 in total). KO had improved survival and reduced occurrence of heart rupture post-infarction. Expression of cardiac matrix metalloproteinase 2 (MMP-2) was reduced; fibroblast activation and collagen accumulation were facilitated, while oxidative stress was attenuated in KO early post-infarction. 6 weeks post-infarction, reactive fibrosis and left ventricular dilatation were diminished in KO. p66ShcA regulation of MMP-2 was demonstrated in cultured fibroblasts: lack or overexpression of p66ShcA in vitro altered expression of MMP-2. Myocardial infarction induced cardiac p66ShcA. Deletion of p66ShcA improved early survival, myocardial healing and reduced cardiac fibrosis. Upon myocardial infarction p66ShcA regulates MMP-2 activation. The role of p66ShcA in human cardiac disease deserves further study as a potential target for reducing adverse cardiac remodeling post-infarction.

Published

2015

8. Ranolazine protects from doxorubicin-induced oxidative stress and cardiac dysfunction.

Author

Tocchetti CG, Carpi A, Coppola C, Quintavalle C, Rea D, Campesan M, Arcari A, Piscopo G, Cipresso C, Monti MG, De Lorenzo C, Arra C, Condorelli G, Di Lisa F, and Maurea N

Subjects

Animals, Atrial Natriuretic Factor genetics, Blotting, Western methods, Cardiotoxicity diagnostic imaging, Cardiotoxicity prevention & control, Connective Tissue Growth Factor genetics, Matrix Metalloproteinase 2 genetics, Mice, Mice, Inbred C57BL, Myocytes, Cardiac cytology, Natriuretic Peptide, Brain genetics, Oxidative Stress genetics, Poly(ADP-ribose) Polymerases metabolism, RNA, Messenger genetics, Ranolazine, Reactive Oxygen Species metabolism, Real-Time Polymerase Chain Reaction, Reverse Transcriptase Polymerase Chain Reaction methods, Sodium blood, Ultrasonography, Ventricular Dysfunction, Left chemically induced, Ventricular Dysfunction, Left metabolism, Acetanilides therapeutic use, Antibiotics, Antineoplastic toxicity, Doxorubicin toxicity, Enzyme Inhibitors therapeutic use, Oxidative Stress drug effects, Piperazines therapeutic use, Ventricular Dysfunction, Left prevention & control

Abstract

Aims: Doxorubicin is widely used against cancer; however, it can produce heart failure (HF). Among other hallmarks, oxidative stress is a major contributor to HF pathophysiology. The late INa inhibitor ranolazine has proven effective in treating experimental HF. Since elevated [Na+]i is present in failing myocytes, and has been recently linked with reactive oxygen species (ROS) production, our aim was to assess whether ranolazine prevents doxorubicin-induced cardiotoxicity, and whether blunted oxidative stress is a mechanism accounting for such protection., Methods and Result: In C57BL6 mice, doxorubicin treatment for 7 days produced LV dilation and decreased echo-measured fractional shortening (FS). Ranolazine (305 mg/kg/day) prevented LV dilation and dysfunction when co-administered with doxorubicin. Doxorubicin-induced cardiotoxicity was accompanied instead by elevations in atrial natriuretic peptide (ANP), BNP, connective tissue growth factor (CTGF), and matrix metalloproteinase 2 (MMP2) mRNAs, which were not elevated on co-treatment with ranolazine. Alterations in extracellular matrix remodelling were confirmed by an increase in interstitial collagen, which did not rise in ranolazine-co-treated hearts. Levels of poly(ADP-ribose) polymerase (PARP) and pro-caspase-3 measured by western blotting were lowered with doxorubicin, with increased cleavage of caspase-3, indicating activation of the proapoptotic machinery. Again, ranolazine prevented this activation. Furthermore, in HL-1 cardiomyocytes transfected with HyPer to monitor H2O2 emission, besides reducing the extent of cell death, ranolazine prevented the occurrence of oxidative stress caused by doxorubicin. Interestingly, similar protective results were obtained with the Na+/Ca2+ exchanger (NCX) inhibitor KB-R7943., Conclusions: Ranolazine protects against experimental doxorubicin cardiotoxicity. Such protection is accompanied by a reduction in oxidative stress, suggesting that INa modulates cardiac redox balance, resulting in functional and morphological derangements., (© 2014 The Authors. European Journal of Heart Failure © 2013 European Society of Cardiology.)

Published

2014