RATIONALE: Although a cardioprotective function of target of rapamycin (TOR) signaling inhibition has been suggested by pharmacological studies using rapamycin, genetic evidences are still lacking. We explored adult zebrafish as a novel vertebrate model for dissecting signaling pathways in cardiomyopathy. OBJECTIVE: We generated the second adult zebrafish cardiomyopathy model induced by doxorubicin. By genetically analyzing both the doxorubicin and our previous established anemia-induced cardiomyopathy models, we decipher the functions of TOR signaling in cardiomyopathies of different etiology. METHODS AND RESULTS: Along the progression of both cardiomyopathy models, we detected dynamic TOR activity at different stages of pathogenesis as well as distinct effects of TOR signaling inhibition. Nevertheless, cardiac enlargement in both models can be effectively attenuated by inhibition of TOR signaling through short-term rapamycin treatment. To assess the long-term effects of TOR reduction, we used a zebrafish target of rapamycin (ztor) mutant identified from an insertional mutagenesis screen. We show that TOR haploinsufficiency in the ztor heterozygous fish improved cardiac function, prevented pathological remodeling events, and ultimately reduced mortality in both adult fish models of cardiomyopathy. Mechanistically, these cardioprotective effects are conveyed by the antihypertrophy, antiapoptosis, and proautophagy function of TOR signaling inhibition. CONCLUSIONS: Our results prove adult zebrafish as a conserved novel vertebrate model for human cardiomyopathies. Moreover, we provide the first genetic evidence to demonstrate a long-term cardioprotective effect of TOR signaling inhibition on at least 2 cardiomyopathies of distinct etiology, despite dynamic TOR activities during their pathogenesis.
RATIONALE: Although a cardioprotective function of target of rapamycin (TOR) signaling inhibition has been suggested by pharmacological studies using rapamycin, genetic evidences are still lacking. We explored adult zebrafish as a novel vertebrate model for dissecting signaling pathways in cardiomyopathy. OBJECTIVE: We generated the second adult zebrafish cardiomyopathy model induced by doxorubicin. By genetically analyzing both the doxorubicin and our previous established anemia-induced cardiomyopathy models, we decipher the functions of TOR signaling in cardiomyopathies of different etiology. METHODS AND RESULTS: Along the progression of both cardiomyopathy models, we detected dynamic TOR activity at different stages of pathogenesis as well as distinct effects of TOR signaling inhibition. Nevertheless, cardiac enlargement in both models can be effectively attenuated by inhibition of TOR signaling through short-term rapamycin treatment. To assess the long-term effects of TOR reduction, we used a zebrafishtarget of rapamycin (ztor) mutant identified from an insertional mutagenesis screen. We show that TORhaploinsufficiency in the ztor heterozygous fish improved cardiac function, prevented pathological remodeling events, and ultimately reduced mortality in both adult fish models of cardiomyopathy. Mechanistically, these cardioprotective effects are conveyed by the antihypertrophy, antiapoptosis, and proautophagy function of TOR signaling inhibition. CONCLUSIONS: Our results prove adult zebrafish as a conserved novel vertebrate model for humancardiomyopathies. Moreover, we provide the first genetic evidence to demonstrate a long-term cardioprotective effect of TOR signaling inhibition on at least 2 cardiomyopathies of distinct etiology, despite dynamic TOR activities during their pathogenesis.
Authors: Wolfgang Rottbauer; Andrew J Saurin; Heiko Lickert; Xuetong Shen; C Geoff Burns; Z Galen Wo; Rolf Kemler; Robert Kingston; Carl Wu; Mark Fishman Journal: Cell Date: 2002-11-27 Impact factor: 41.582
Authors: Pankaj Shende; Isabelle Plaisance; Christian Morandi; Corinne Pellieux; Corinne Berthonneche; Francesco Zorzato; Jaya Krishnan; René Lerch; Michael N Hall; Markus A Rüegg; Thierry Pedrazzini; Marijke Brink Journal: Circulation Date: 2011-02-28 Impact factor: 29.690
Authors: Barry H Paw; Alan J Davidson; Yi Zhou; Rong Li; Stephen J Pratt; Charles Lee; Nikolaus S Trede; Alison Brownlie; Adriana Donovan; Eric C Liao; James M Ziai; Anna H Drejer; Wen Guo; Carol H Kim; Babette Gwynn; Luanne L Peters; Marina N Chernova; Seth L Alper; Agustin Zapata; Sunitha N Wickramasinghe; Matthew J Lee; Samuel E Lux; Andreas Fritz; John H Postlethwait; Leonard I Zon Journal: Nat Genet Date: 2003-05 Impact factor: 38.330
Authors: Julie R McMullen; Megan C Sherwood; Oleg Tarnavski; Li Zhang; Adam L Dorfman; Tetsuo Shioi; Seigo Izumo Journal: Circulation Date: 2004-06-07 Impact factor: 29.690