Glucocorticoid chronopharmacology promotes glucose metabolism in heart through a cardiomyocyte-autonomous transactivation program
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
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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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 1

Light-phase glucocorticoid stimulation improves glucose uptake and oxidation in the heart.

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Light-phase glucocorticoid stimulation improves glucose uptake and oxida...
(A) Gene Ontology (GO) analysis revealed that ZT0 intermittent prednisone increased expression of Klf15, Adipor1, Mpc1, and Mpc2 from the enriched pathways of pyruvate transport and glucose import in the WT hearts. (B) Upregulation of KLF15 by prednisone was higher after ZT0 than ZT12 dosing, and upregulation of Adipor1, Mpc1, and Mpc2 was specific to ZT0 and blunted by ZT12 dosing. (C) Co-IPs in heart tissue showed that KLF15 interaction with GR was higher with ZT0 than ZT12 prednisone. (D) Consistent with Adipor1 upregulation, ZT0 prednisone treatment decreased myocardial ceramide levels and increased insulin-dependent 2DG uptake in the heart. (E) After ZT0, but not ZT12, treatment, cardiomyocytes increased basal glucose-fueled respiration ex vivo (arrow) and ATP production. (F) Consistent with Mpc1/2 upregulation, ZT0 treatment increased ADP-stimulated respiration (arrow) and respiratory control ratio with pyruvate in isolated mitochondria. (G) Circadian time-course qPCR analyses in myocardial tissues revealed oscillations of variable amplitude for Klf15, Adipor1, and Mpc1/2 expression. The transactivation effect by a single prednisone pulse was pronounced and prolonged over the circadian cycle with ZT0 injections, while ZT12 prednisone effects were either transient or nonsignificant. Data are presented as mean ± SEM; histograms also show individual mouse values. n = 3 ♂/group in A, n = (5 ♀ + 5 ♂)/group in BG. *P < 0.05; **P < 0.01; ***P < 0.001; ****P < 0.0001 by Welch’s t test (A) or 2-way ANOVA with Šidák’s post hoc test (BG).