Acarbose has sex-dependent and -independent effects on age-related physical function, cardiac health, and lipid biology
Jonathan J. Herrera, … , Richard A. Miller, Michael Garratt
Jonathan J. Herrera, … , Richard A. Miller, Michael Garratt
Published September 29, 2020
Citation Information: JCI Insight. 2020;5(21):e137474. https://doi.org/10.1172/jci.insight.137474.
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Research Article Aging

Acarbose has sex-dependent and -independent effects on age-related physical function, cardiac health, and lipid biology

Abstract

With an expanding aging population burdened with comorbidities, there is considerable interest in treatments that optimize health in later life. Acarbose (ACA), a drug used clinically to treat type 2 diabetes mellitus (T2DM), can extend mouse life span with greater effect in males than in females. Using a genetically heterogeneous mouse model, we tested the ability of ACA to ameliorate functional, pathological, and biochemical changes that occur during aging, and we determined which of the effects of age and drug were sex dependent. In both sexes, ACA prevented age-dependent loss of body mass, in addition to improving balance/coordination on an accelerating rotarod, rotarod endurance, and grip strength test. Age-related cardiac hypertrophy was seen only in male mice, and this male-specific aging effect was attenuated by ACA. ACA-sensitive cardiac changes were associated with reduced activation of cardiac growth–promoting pathways and increased abundance of peroxisomal proteins involved in lipid metabolism. ACA further ameliorated age-associated changes in cardiac lipid species, particularly lysophospholipids — changes that have previously been associated with aging, cardiac dysfunction, and cardiovascular disease in humans. In the liver, ACA had pronounced effects on lipid handling in both sexes, reducing hepatic lipidosis during aging and shifting the liver lipidome in adulthood, particularly favoring reduced triglyceride (TAG) accumulation. Our results demonstrate that ACA, already in clinical use for T2DM, has broad-ranging antiaging effects in multiple tissues, and it may have the potential to increase physical function and alter lipid biology to preserve or improve health at older ages.

Authors

Jonathan J. Herrera, Sean Louzon, Kaitlyn Pifer, Danielle Leander, Gennifer E. Merrihew, Jea H. Park, Kate Szczesniak, Jeremy Whitson, John E. Wilkinson, Oliver Fiehn, Michael J. MacCoss, Sharlene M. Day, Richard A. Miller, Michael Garratt

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Figure 2

ACA improves physical function in old mice at 22 months of age.

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ACA improves physical function in old mice at 22 months of age. Balance ...
Balance capacity was assessed on an accelerating rotarod (A and B), while endurance capacity was tested by maintaining mice on the rod at a submaximal speed (C and D). (A, C, and E) Data are presented as mean ± SEM, with data split according to age, sex ,and ACA treatment. (B, D, and F) Individual data for functional capacity of each mouse in relation to body weight (data from both sexes pooled because sex did not influence scores) (n = 8–12 per sex for each group). Grip strength was assessed with a grip strength meter (E and F). P values were calculated from a 2-way ANOVA on data from 22 month old mice, including sex, ACA and their interaction as factors.