Glucocorticoid chronopharmacology promotes glucose metabolism in heart through a cardiomyocyte-autonomous transactivation program
Hima Bindu Durumutla, … , Saptarsi M. Haldar, Mattia Quattrocelli
Hima Bindu Durumutla, … , Saptarsi M. Haldar, Mattia Quattrocelli
Published October 8, 2024
Citation Information: JCI Insight. 2024;9(22):e182599. https://doi.org/10.1172/jci.insight.182599.
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Research Article Cardiology Metabolism

Glucocorticoid chronopharmacology promotes glucose metabolism in heart through a cardiomyocyte-autonomous transactivation program

Abstract

Circadian time of intake gates the cardioprotective effects of glucocorticoid administration in both healthy and infarcted hearts. The cardiomyocyte-specific glucocorticoid receptor (GR) and its cofactor, Krüppel-like factor 15 (KLF15), play critical roles in maintaining normal heart function in the long term and serve as pleiotropic regulators of cardiac metabolism. Despite this understanding, the cardiomyocyte-autonomous metabolic targets influenced by the concerted epigenetic action of the GR/KLF15 axis remain undefined. Here, we demonstrated the critical roles of the cardiomyocyte-specific GR and KLF15 in orchestrating a circadian-dependent glucose oxidation program within the heart. Combining integrated transcriptomics and epigenomics with cardiomyocyte-specific inducible ablation of GR or KLF15, we identified their synergistic role in the activation of adiponectin receptor expression (Adipor1) and the mitochondrial pyruvate complex (Mpc1/2), thereby enhancing insulin-stimulated glucose uptake and pyruvate oxidation. Furthermore, in obese diabetic (db/db) mice exhibiting insulin resistance and impaired glucose oxidation, light-phase prednisone administration, as opposed to dark-phase prednisone dosing, restored cardiomyocyte glucose oxidation and improved diastolic function. These effects were blocked by combined in vivo knockdown of GR and KLF15 levels in db/db hearts. In summary, this study leveraged the circadian-dependent cardioprotective effects of glucocorticoids to identify cardiomyocyte-autonomous targets for the GR/KLF15 axis in glucose metabolism.

Authors

Hima Bindu Durumutla, Ashok Daniel Prabakaran, Fadoua El Abdellaoui Soussi, Olukunle Akinborewa, Hannah Latimer, Kevin McFarland, Kevin Piczer, Cole Werbrich, Mukesh K. Jain, Saptarsi M. Haldar, Mattia Quattrocelli

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Figure 6

Knockdown of GR and KLF15 in db/db hearts in vivo blocks the ZT0 prednisone effects.

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Knockdown of GR and KLF15 in db/db hearts in vivo blocks the ZT0 prednis...
(A) Representative Western blot showing knockdown of GR and KLF15 at 12 weeks after transduction and ZT0 prednisone regimen start, as well as blunting of the treatment effect on ADIPOR1, MPC1, and MPC2 protein level upregulation in hearts of db/db mice transduced with the knockdown vectors compared with mice transduced with scramble vectors. (B and C) Knockdown MyoAAV combination blocked the treatment effects on diastolic dysfunction (E/e′), stroke volume, cardiac hypertrophy (heart weight/tibia length), and insulin-driven glucose uptake (2DG6P). (D) Treatment increased glucose-fueled respiration (oxygen consumption rate, OCR) in permeabilized cardiac biopsies and pyruvate-fueled respiration (respiratory control ratio, RCR) in isolated myocardial mitochondria in scramble-, but not knockdown-transduced, hearts. Data are presented as mean ± SEM; histograms also show individual mouse values. n = 5 ♂/group. *P < 0.05; **P < 0.01; ***P < 0.001; ****P < 0.0001 by 2-way ANOVA with Šidák’s post hoc test.