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Literature DB >> 33512477

The complex network of mTOR signalling in the heart.

Sebastiano Sciarretta^1,2, Maurizio Forte², Giacomo Frati^1,2, Junichi Sadoshima³.

Abstract

The mechanistic target of rapamycin (mTOR) integrates several intracellular and extracellular signals involved in the regulation of anabolic and catabolic processes. mTOR assembles into two macromolecular complexes, named mTORC1 and mTORC2, which have different regulators, substrates and functions. Studies of gain- and loss-of-function animal models of mTOR signalling revealed that mTORC1/2 elicits both adaptive and maladaptive functions in the cardiovascular system. Both mTORC1 and mTORC2 are indispensable for driving cardiac development and cardiac adaption to stress, such as pressure overload. However, persistent and deregulated mTORC1 activation in the heart is detrimental during stress and contributes to the development and progression of cardiac remodelling and genetic and metabolic cardiomyopathies. In this review, we discuss the latest findings regarding the role of mTOR in the cardiovascular system, both under basal conditions and during stress, such as pressure overload, ischemia, and metabolic stress. Current data suggest that mTOR modulation may represent a potential therapeutic strategy for the treatment of cardiac diseases. Published on behalf of the European Society of Cardiology. All rights reserved.

Entities: Chemical

Keywords: Heart disease; Rapamycin; mTOR; mTORC1; mTORC2

Mesh：

Substances：

Year: 2022 PMID： 33512477 PMCID： PMC8932297 DOI： 10.1093/cvr/cvab033

Source DB: PubMed Journal: Cardiovasc Res ISSN： 0008-6363 Impact factor: 10.787

193 in total

1. MicroRNA-221 inhibits autophagy and promotes heart failure by modulating the p27/CDK2/mTOR axis.

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Journal: Cell Death Differ Date: 2014-11-14 Impact factor: 15.828

2. mTORC2 regulates cardiac response to stress by inhibiting MST1.

Authors: Sebastiano Sciarretta; Peiyong Zhai; Yasuhiro Maejima; Dominic P Del Re; Narayani Nagarajan; Derek Yee; Tong Liu; Mark A Magnuson; Massimo Volpe; Giacomo Frati; Hong Li; Junichi Sadoshima
Journal: Cell Rep Date: 2015-04-02 Impact factor: 9.423

3. Tti1 and Tel2 are critical factors in mammalian target of rapamycin complex assembly.

Authors: Takeshi Kaizuka; Taichi Hara; Noriko Oshiro; Ushio Kikkawa; Kazuyoshi Yonezawa; Kenji Takehana; Shun-Ichiro Iemura; Tohru Natsume; Noboru Mizushima
Journal: J Biol Chem Date: 2010-04-28 Impact factor: 5.157

4. Chronic Akt activation accentuates aging-induced cardiac hypertrophy and myocardial contractile dysfunction: role of autophagy.

Authors: Yinan Hua; Yingmei Zhang; Asli F Ceylan-Isik; Loren E Wold; Jennifer M Nunn; Jun Ren
Journal: Basic Res Cardiol Date: 2011-09-09 Impact factor: 17.165

5. Regulation of mTOR function in response to hypoxia by REDD1 and the TSC1/TSC2 tumor suppressor complex.

Authors: James Brugarolas; Kui Lei; Rebecca L Hurley; Brendan D Manning; Jan H Reiling; Ernst Hafen; Lee A Witters; Leif W Ellisen; William G Kaelin
Journal: Genes Dev Date: 2004-11-15 Impact factor: 11.361

6. Folliculin (Flcn) inactivation leads to murine cardiac hypertrophy through mTORC1 deregulation.

Authors: Yukiko Hasumi; Masaya Baba; Hisashi Hasumi; Ying Huang; Martin Lang; Rachel Reindorf; Hyoung-bin Oh; Sebastiano Sciarretta; Kunio Nagashima; Diana C Haines; Michael D Schneider; Robert S Adelstein; Laura S Schmidt; Junichi Sadoshima; W Marston Linehan
Journal: Hum Mol Genet Date: 2014-06-06 Impact factor: 6.150

7. Mechanistic target of rapamycin (Mtor) is essential for murine embryonic heart development and growth.

Authors: Yi Zhu; Karla M P Pires; Kevin J Whitehead; Curtis D Olsen; Benjamin Wayment; Yi Cheng Zhang; Heiko Bugger; Olesya Ilkun; Sheldon E Litwin; George Thomas; Sara C Kozma; E Dale Abel
Journal: PLoS One Date: 2013-01-14 Impact factor: 3.240

8. PKG1-modified TSC2 regulates mTORC1 activity to counter adverse cardiac stress.

Authors: Mark J Ranek; Kristen M Kokkonen-Simon; Anna Chen; Brittany L Dunkerly-Eyring; Miguel Pinilla Vera; Christian U Oeing; Chirag H Patel; Taishi Nakamura; Guangshuo Zhu; Djahida Bedja; Masayuki Sasaki; Ronald J Holewinski; Jennifer E Van Eyk; Jonathan D Powell; Dong Ik Lee; David A Kass
Journal: Nature Date: 2019-01-30 Impact factor: 49.962

9. LATS suppresses mTORC1 activity to directly coordinate Hippo and mTORC1 pathways in growth control.

Authors: Wenjian Gan; Xiaoming Dai; Xiangpeng Dai; Jun Xie; Shasha Yin; Junjie Zhu; Chen Wang; Yuchen Liu; Jianping Guo; Min Wang; Jing Liu; Jia Hu; Ryan J Quinton; Neil J Ganem; Pengda Liu; John M Asara; Pier Paolo Pandolfi; Yingzi Yang; Zhigang He; Guangping Gao; Wenyi Wei
Journal: Nat Cell Biol Date: 2020-02-03 Impact factor: 28.824

10. p38γ and δ promote heart hypertrophy by targeting the mTOR-inhibitory protein DEPTOR for degradation.

Authors: Bárbara González-Terán; Juan Antonio López; Elena Rodríguez; Luis Leiva; Sara Martínez-Martínez; Juan Antonio Bernal; Luis Jesús Jiménez-Borreguero; Juan Miguel Redondo; Jesús Vazquez; Guadalupe Sabio
Journal: Nat Commun Date: 2016-01-22 Impact factor: 14.919

2 in total

Review 1. An Overview of the Molecular Mechanisms Associated with Myocardial Ischemic Injury: State of the Art and Translational Perspectives.

Authors: Leonardo Schirone; Maurizio Forte; Luca D'Ambrosio; Valentina Valenti; Daniele Vecchio; Sonia Schiavon; Giulia Spinosa; Gianmarco Sarto; Vincenzo Petrozza; Giacomo Frati; Sebastiano Sciarretta
Journal: Cells Date: 2022-03-30 Impact factor: 6.600

2. Silencing of Sphingosine kinase 1 Affects Maturation Pathways in Mouse Neonatal Cardiomyocytes.

Authors: Ewelina Jozefczuk; Piotr Szczepaniak; Tomasz Jan Guzik; Mateusz Siedlinski
Journal: Int J Mol Sci Date: 2021-03-31 Impact factor: 5.923

2 in total