Literature DB >> 29377150

Cardioprotective effects of dietary rapamycin on adult female C57BLKS/J-Leprdb mice.

Peter C Reifsnyder1, Sergey Ryzhov2, Kevin Flurkey1, Rea P Anunciado-Koza2, Ian Mills2, David E Harrison1, Robert A Koza2.   

Abstract

Rapamycin (RAPA), an inhibitor of mTORC signaling, has been shown to extend life span in mice and other organisms. Recently, animal and human studies have suggested that inhibition of mTORC signaling can alleviate or prevent the development of cardiomyopathy. In view of this, we used a murine model of type 2 diabetes (T2D), BKS-Leprdb , to determine whether RAPA treatment can mitigate the development of T2D-induced cardiomyopathy in adult mice. Female BKS-Leprdb mice fed diet supplemented with RAPA from 11 to 27 weeks of age showed reduced weight gain and significant reductions of fat and lean mass compared with untreated mice. No differences in plasma glucose or insulin levels were observed between groups; however, RAPA-treated mice were more insulin sensitive (P < 0.01) than untreated mice. Urine albumin/creatinine ratio was lower in RAPA-treated mice, suggesting reduced diabetic nephropathy and improved kidney function. Echocardiography showed significantly reduced left ventricular wall thickness in mice treated with RAPA compared with untreated mice (P = 0.02) that was consistent with reduced heart weight/tibia length ratios, reduced myocyte size and cardiac fibrosis measured by histomorphology, and reduced mRNA expression of Col1a1, a marker for cardiomyopathy. Our results suggest that inhibition of mTORC signaling is a plausible strategy for ameliorating complications of obesity and T2D, including cardiomyopathy.
© 2018 New York Academy of Sciences.

Entities:  

Keywords:  cardiomyopathy; diabetes; mTORC; obesity; rapamycin

Mesh:

Substances:

Year:  2018        PMID: 29377150      PMCID: PMC5934313          DOI: 10.1111/nyas.13557

Source DB:  PubMed          Journal:  Ann N Y Acad Sci        ISSN: 0077-8923            Impact factor:   5.691


  65 in total

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Journal:  J Lipid Res       Date:  2002-08       Impact factor: 5.922

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Authors:  Kailiang Jia; Di Chen; Donald L Riddle
Journal:  Development       Date:  2004-07-14       Impact factor: 6.868

5.  Chronic rapamycin treatment causes glucose intolerance and hyperlipidemia by upregulating hepatic gluconeogenesis and impairing lipid deposition in adipose tissue.

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6.  Rapamycin slows aging in mice.

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Review 7.  Mouse models of diabetic nephropathy.

Authors:  Frank C Brosius; Charles E Alpers; Erwin P Bottinger; Matthew D Breyer; Thomas M Coffman; Susan B Gurley; Raymond C Harris; Masao Kakoki; Matthias Kretzler; Edward H Leiter; Moshe Levi; Richard A McIndoe; Kumar Sharma; Oliver Smithies; Katalin Susztak; Nobuyuki Takahashi; Takamune Takahashi
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Authors:  Carolina B Livi; Rulon L Hardman; Barbara A Christy; Sherry G Dodds; Diane Jones; Charnae Williams; Randy Strong; Alex Bokov; Martin A Javors; Yuji Ikeno; Gene Hubbard; Paul Hasty; Zelton Dave Sharp
Journal:  Aging (Albany NY)       Date:  2013-02       Impact factor: 5.682

10.  Dietary rapamycin supplementation reverses age-related vascular dysfunction and oxidative stress, while modulating nutrient-sensing, cell cycle, and senescence pathways.

Authors:  Lisa A Lesniewski; Douglas R Seals; Ashley E Walker; Grant D Henson; Mark W Blimline; Daniel W Trott; Gary C Bosshardt; Thomas J LaRocca; Brooke R Lawson; Melanie C Zigler; Anthony J Donato
Journal:  Aging Cell       Date:  2016-09-22       Impact factor: 9.304
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2.  Differential Effects of Rapamycin on Glucose Metabolism in Nine Inbred Strains.

Authors:  Peter C Reifsnyder; Austen Te; David E Harrison
Journal:  J Gerontol A Biol Sci Med Sci       Date:  2020-01-01       Impact factor: 6.053

Review 3.  Effect of rapamycin on aging and age-related diseases-past and future.

Authors:  Ramasamy Selvarani; Sabira Mohammed; Arlan Richardson
Journal:  Geroscience       Date:  2020-10-10       Impact factor: 7.713

4.  Chronic everolimus treatment of high-fat diet mice leads to a reduction in obesity but impaired glucose tolerance.

Authors:  Geng-Ruei Chang; Po-Hsun Hou; Chao-Min Wang; Ching-Feng Wu; Huang-Kai Su; Huei-Jyuan Liao; To-Pang Chen
Journal:  Pharmacol Res Perspect       Date:  2021-04

Review 5.  The landscape of aging.

Authors:  Yusheng Cai; Wei Song; Jiaming Li; Ying Jing; Chuqian Liang; Liyuan Zhang; Xia Zhang; Wenhui Zhang; Beibei Liu; Yongpan An; Jingyi Li; Baixue Tang; Siyu Pei; Xueying Wu; Yuxuan Liu; Cheng-Le Zhuang; Yilin Ying; Xuefeng Dou; Yu Chen; Fu-Hui Xiao; Dingfeng Li; Ruici Yang; Ya Zhao; Yang Wang; Lihui Wang; Yujing Li; Shuai Ma; Si Wang; Xiaoyuan Song; Jie Ren; Liang Zhang; Jun Wang; Weiqi Zhang; Zhengwei Xie; Jing Qu; Jianwei Wang; Yichuan Xiao; Ye Tian; Gelin Wang; Ping Hu; Jing Ye; Yu Sun; Zhiyong Mao; Qing-Peng Kong; Qiang Liu; Weiguo Zou; Xiao-Li Tian; Zhi-Xiong Xiao; Yong Liu; Jun-Ping Liu; Moshi Song; Jing-Dong J Han; Guang-Hui Liu
Journal:  Sci China Life Sci       Date:  2022-09-02       Impact factor: 10.372

6.  Rapamycin/metformin co-treatment normalizes insulin sensitivity and reduces complications of metabolic syndrome in type 2 diabetic mice.

Authors:  Peter C Reifsnyder; Kevin Flurkey; Rosalinda Doty; Nigel A Calcutt; Robert A Koza; David E Harrison
Journal:  Aging Cell       Date:  2022-08-19       Impact factor: 11.005

Review 7.  Cardiovascular effects of immunosuppression agents.

Authors:  Aly Elezaby; Ryan Dexheimer; Karim Sallam
Journal:  Front Cardiovasc Med       Date:  2022-09-21

8.  Acarbose improves health and lifespan in aging HET3 mice.

Authors:  David E Harrison; Randy Strong; Silvestre Alavez; Clinton Michael Astle; John DiGiovanni; Elizabeth Fernandez; Kevin Flurkey; Michael Garratt; Jonathan A L Gelfond; Martin A Javors; Moshe Levi; Gordon J Lithgow; Francesca Macchiarini; James F Nelson; Stacey J Sukoff Rizzo; Thomas J Slaga; Tim Stearns; John Erby Wilkinson; Richard A Miller
Journal:  Aging Cell       Date:  2019-01-27       Impact factor: 9.304
  8 in total

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