Nicolas J LeTexier scite author profile

The FDA approved drug rapamycin increases lifespan in rodents and delays age-related dysfunction in rodents and humans. Nevertheless, important questions remain regarding the optimal dose, duration, and mechanisms of action in the context of healthy aging. Here we show that 3 months of rapamycin treatment is sufficient to increase life expectancy by up to 60% and improve measures of healthspan in middle-aged mice. This transient treatment is also associated with a remodeling of the microbiome, including dramatically increased prevalence of segmented filamentous bacteria in the small intestine. We also define a dose in female mice that does not extend lifespan, but is associated with a striking shift in cancer prevalence toward aggressive hematopoietic cancers and away from non-hematopoietic malignancies. These data suggest that a short-term rapamycin treatment late in life has persistent effects that can robustly delay aging, influence cancer prevalence, and modulate the microbiome.DOI: http://dx.doi.org/10.7554/eLife.16351.001

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Dose-dependent effects of mTOR inhibition on weight and mitochondrial disease in mice

Johnson

Yanos

Bitto

et al. 2015

Front. Genet.

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Rapamycin extends lifespan and attenuates age-related pathologies in mice when administered through diet at 14 parts per million (PPM). Recently, we reported that daily intraperitoneal injection of rapamycin at 8 mg/kg attenuates mitochondrial disease symptoms and progression in the Ndufs4 knockout mouse model of Leigh Syndrome. Although rapamycin is a widely used pharmaceutical agent dosage has not been rigorously examined and no dose-response profile has been established. Given these observations we sought to determine if increased doses of oral rapamycin would result in more robust impact on mTOR driven parameters. To test this hypothesis, we compared the effects of dietary rapamycin at doses ranging from 14 to 378 PPM on developmental weight in control and Ndufs4 knockout mice and on health and survival in the Ndufs4 knockout model. High dose rapamycin was well tolerated, dramatically reduced weight gain during development, and overcame gender differences. The highest oral dose, approximately 27-times the dose shown to extend murine lifespan, increased survival in Ndufs4 knockout mice similarly to daily rapamycin injection without observable adverse effects. These findings have broad implications for the effective use of rapamycin in murine studies and for the translational potential of rapamycin in the treatment of mitochondrial disease. This data, further supported by a comparison of available literature, suggests that 14 PPM dietary rapamycin is a sub-optimal dose for targeting mTOR systemically in mice. Our findings suggest that the role of mTOR in mammalian biology may be broadly underestimated when determined through treatment with rapamycin at commonly used doses.

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Mss51 deletion enhances muscle metabolism and glucose homeostasis in mice

Gonzalez¹,

Moyer²,

LeTexier³

et al. 2019

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Mss51 deletion increases endurance and ameliorates histopathology in the mdx mouse model of Duchenne muscular dystrophy

et al. 2021

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Abbreviations: ATP, adenosine triphosphate; high-energy molecule found in every cell; DMD, Duchenne muscular dystrophy; an inherited disorder of progressive muscle weakness; Fatty acid β-oxidation; metabolic process by which fatty acid molecules are broken down, and the beta carbon is oxidized to a carbonyl group; mdx, mouse model of Duchenne muscular dystrophy lacking dystrophin expression; mdx-Mss51 KO, mutant mouse that does not express dystrophin nor Mss51; Mss51, mitochondrial translational activator; ROS, reactive oxygen species; chemically reactive molecules that contain oxygen.

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