Cardiac GR Mediates the Diurnal Rhythm in Ventricular Arrhythmia Susceptibility

Abstract: RATIONALE: Ventricular arrhythmias (VAs) demonstrate a prominent day-night rhythm, commonly presenting in the early morning. Transcriptional rhythms in cardiac ion channels accompany this phenomenon, but their role in the morning vulnerability to VAs and the underlying mechanisms are not understood. OBJECTIVE: The objectives are to investigate the recruitment of transcription factors to time-of-day differentially accessible chromatin that underpins day-… Show more

“…14 Based on this knowledge, the authors confirmed that GRs can bind and modulate transcriptional targets of I Na and I Kr in a time-of-daydependent chromatin accessibility. 9 Another intriguing finding in this study was that GRs can indirectly regulate the rhythmic transcription of Gja1, a gap junction channel gene responsible for electrical coupling. By using 2 different GR knockout models (GR fl/fl and cardioGRKO), the authors demonstrated that the daily variation of Gja1 was abolished, which was also associated with the loss of increased vulnerability to VA at the active phase, perhaps due to functional loss of the day/night rhythm in electrical coupling.…”

“…However, despite these compelling findings, a new study by Tikhomirov et al, published in this issue of Circulation Research, suggests that the simple dimerization model of CLOCK and BMAL1 proteins binding to their cognate ion channel promoters may alone be insufficient to explain circadian-dependent occurrence of VA. In fact, this study points to a new and intriguing concept that suggests that changes in chromatin reorganization may be a critical event underlying the circadian rhythmicity of arrhythmias 9 Next, the authors aimed to identify TFs that may be involved in rhythmic gene expression patterns, which could explain the daily changes in ventricular electrical excitability. GRs (glucocorticoid receptors) were identified as a candidate TF with increased transcription at ZT12.…”

“…By using 2 different GR knockout models (GR fl/fl and cardioGRKO), the authors demonstrated that the daily variation of Gja1 was abolished, which was also associated with the loss of increased vulnerability to VA at the active phase, perhaps due to functional loss of the day/night rhythm in electrical coupling. 9 In composite, the study by Tikhomirov et al demonstrates for the first time that in preparation for the active phase, GRs respond to hormonal signals, such as glucocorticoids, resulting in dramatic changes to electrophysiological properties in the heart. Therefore, this study strongly suggests that chromatin-accessible ion channels and gap junction genes and their functional regulation may be a key underlying mechanism of VA in the morning hours.…”

Circadian-Regulated GR Signaling Mediates Morning Arrhythmias

“…14 Based on this knowledge, the authors confirmed that GRs can bind and modulate transcriptional targets of I Na and I Kr in a time-of-daydependent chromatin accessibility. 9 Another intriguing finding in this study was that GRs can indirectly regulate the rhythmic transcription of Gja1, a gap junction channel gene responsible for electrical coupling. By using 2 different GR knockout models (GR fl/fl and cardioGRKO), the authors demonstrated that the daily variation of Gja1 was abolished, which was also associated with the loss of increased vulnerability to VA at the active phase, perhaps due to functional loss of the day/night rhythm in electrical coupling.…”

“…However, despite these compelling findings, a new study by Tikhomirov et al, published in this issue of Circulation Research, suggests that the simple dimerization model of CLOCK and BMAL1 proteins binding to their cognate ion channel promoters may alone be insufficient to explain circadian-dependent occurrence of VA. In fact, this study points to a new and intriguing concept that suggests that changes in chromatin reorganization may be a critical event underlying the circadian rhythmicity of arrhythmias 9 Next, the authors aimed to identify TFs that may be involved in rhythmic gene expression patterns, which could explain the daily changes in ventricular electrical excitability. GRs (glucocorticoid receptors) were identified as a candidate TF with increased transcription at ZT12.…”

“…By using 2 different GR knockout models (GR fl/fl and cardioGRKO), the authors demonstrated that the daily variation of Gja1 was abolished, which was also associated with the loss of increased vulnerability to VA at the active phase, perhaps due to functional loss of the day/night rhythm in electrical coupling. 9 In composite, the study by Tikhomirov et al demonstrates for the first time that in preparation for the active phase, GRs respond to hormonal signals, such as glucocorticoids, resulting in dramatic changes to electrophysiological properties in the heart. Therefore, this study strongly suggests that chromatin-accessible ion channels and gap junction genes and their functional regulation may be a key underlying mechanism of VA in the morning hours.…”

Circadian-Regulated GR Signaling Mediates Morning Arrhythmias

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