Aldosterone deficiency in mice burdens respiration and accentuates diet-induced hyperinsulinemia and obesity
Wan-Hui Liao, … , Maciej Henneberg, Wolfgang Langhans
Wan-Hui Liao, … , Maciej Henneberg, Wolfgang Langhans
Published July 26, 2018
Citation Information: JCI Insight. 2018;3(14):e99015. https://doi.org/10.1172/jci.insight.99015.
View: Text | PDF
Research Article Endocrinology Metabolism

Aldosterone deficiency in mice burdens respiration and accentuates diet-induced hyperinsulinemia and obesity

Abstract

Aldosterone synthase inhibitors (ASIs) should alleviate obesity-related cardiovascular and renal problems resulting partly from aldosterone excess, but their clinical use may have limitations. To improve knowledge for the use of ASIs, we investigated physiology in aldosterone synthase–knockout (ASKO) mice. On regular chow diet (CD), ASKO mice ate more and weighed less than WT mice, largely because they hyperventilated to eliminate acid as CO2. Replacing CD with high-fat diet (HFD) lessened the respiratory burden in ASKO mice, as did 12- to 15-hour fasting. The latter eliminated the genotype differences in respiratory workload and energy expenditure (EE). Thus, aldosterone deficiency burdened the organism more when the animals ate carbohydrate-rich chow than when they ate a HFD. Chronic HFD exposure further promoted hyperinsulinemia in ASKO mice that contributed to visceral fat accumulation accompanied by reduced lipolysis, thermogenic reprogramming, and the absence of weight-gain-related EE increases. Intracerebroventricular aldosterone supplementation in ASKO mice attenuated the HFD-induced hyperinsulinemia, but did not affect EE, suggesting that the presence of aldosterone increased the body’s energetic efficiency, thus counteracting the EE-increasing effect of low insulin. ASIs may therefore cause acid-overload-induced respiratory burden and promote obesity. Their use in patients with preexisting renal and cardiopulmonary diseases might be contraindicated.

Authors

Wan-Hui Liao, Claudia Suendermann, Andrea Eva Steuer, Gustavo Pacheco Lopez, Alex Odermatt, Nourdine Faresse, Maciej Henneberg, Wolfgang Langhans

×

Figure 3

ASKO mice were more prone to high-fat diet–induced (HFD-induced) visceral adiposity.

Options: View larger image (or click on image) Download as PowerPoint
ASKO mice were more prone to high-fat diet–induced (HFD-induced) viscera...
(A and B) BW and BW changes tracked from the age of 9 weeks (n = 7–8/group, mean ± SEM). *P < 0.05, **P < 0.01 HFD-fed WT versus HFD-fed ASKO by Welch’s unpaired t test. (C) WT and ASKO mice maintained on HFD for 12 weeks. (D and E) Body composition (D) and (E) weights of inguinal (ing.), epididymal (e.), perirenal (pr.) and mesenteric (mes.) white adipose tissue (WAT), and interscapular brown adipose tissue (BAT) after normalization to BW in mice fed chow diet (CD) and HFD (n = 4–8/group, mean ± SEM). #P < 0.05, ##P < 0.01 by 1-way ANOVA followed by Tukey’s post hoc test. (F and G) Representative histological sections of H&E-stained mesenteric fat of HFD-fed mice (F). Scale bars: 100 μm. (G) Box-and-whisker plot and distribution of adipocyte sizes of mesenteric fat (n = 3 [WT], n = 4 [ASKO], 50–100 adipocytes/mouse). ***P < 0.001 for mean adipocyte size difference between HFD-fed WT and ASKO mice by Welch’s unpaired t test. Box = median + interquartile range, whisker = 10%–90% of distribution. (H) Pparg and Cebpa mRNA levels in perirenal fat (n = 3/group, mean ± SD). Welch’s unpaired t test. Data in DH were obtained from 2.5-month-old mice fed CD or HFD for another 14 weeks.