Changes in Myocardial Metabolism Preceding Sudden Cardiac Death

Snyder, Jonathan; Zhai, Ruxu; Lackey, Atreju I.; Sato, Priscila Y.

doi:10.3389/fphys.2020.00640

Cited by 10 publications

(11 citation statements)

References 230 publications

(257 reference statements)

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“…Even though the heart uses fatty acids as the primary substrate in normal conditions, a speci c and delicate regulated balance exists between substrates. Increasing evidence suggests that the heart works better when it uses substrates mixture, especially fatty acids and glucose (23,24). However, when the balance of substrates is a slant towards the predominant utilization of fatty acids or glucose, it is linked to impaired cardiac contractile function.…”

Section: Discussionmentioning

confidence: 99%

The Pivotal Role of miRNA-21 in Myocardial Metabolic Flexibility in Response to Short- and Long-term High Glucose Treatment: Evidence in Human Cardiomyocyte Cell Line

Benedetti

Chianese

Fontanella

et al. 2022

Preprint

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BackgroundmiRNA-21 is a micro-RNA widely studied for its implications in several biological functions, including apoptosis, inflammation, fibrosis, and metabolism. Interestingly, miRNA-21 is a crucial regulator of developing cardiac diseases, but its role is controversial, and it is necessary to clarify its function in pathophysiological events of diabetic cardiomyopathy. In the present study we clarified the protective role of miRNA-21 at cardiac level and evaluated the involvement of miRNA-21 in high glucose induced-acute and chronic cardiac damage. MethodsHuman ventricular cardiac myoblasts AC16, treated and not with miR-21 inhibitor, were exposed to high glucose (33 mM) for 2 and 7 days, and the expression of fibrosis, inflammation, apoptosis, oxidative stress markers were assessed using western blotting. Further, cardiac energetic metabolism was evaluated by measuring both the expression of glucose transporters and regulators of lipids using western blotting analysis and key mitochondrial function parameters (oxygen consumption rate and proton production rate) using Seahorse technology.ResultsShort-term high glucose treatment induced a significant increase in miR-21 expression (p<0.05) that was associated with an increase in hydrogen ion flux and energy potential dissipation without any change in energy production or increase in the expression of genes involved in cellular damage. The reduction of miR-21 expression levels (p<0.05), observed after long-term (7 days) high glucose treatment, induced the activation of inflammation, apoptosis pathways and compromises mitochondrial function as demonstrated by the incapacity to answer energy demand and the impairment of physiological mitochondrial function (p<0.05).ConclusionIn human cardiomyocytes, the abundance of miR-21 takes part in the first defense mechanism against cardiac insult and its cardioprotective effect depends on the time of exposure to the injury. Moreover, miRNA-21regulates mitochondrial respiration and the ability of cells to select the most appropriate substrate for ATP production in a given environment.

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Section: Discussionmentioning

confidence: 99%

The Pivotal Role of miRNA-21 in Myocardial Metabolic Flexibility in Response to Short- and Long-term High Glucose Treatment: Evidence in Human Cardiomyocyte Cell Line

Benedetti

Chianese

Fontanella

et al. 2022

Preprint

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“…Such scenarios have been thought particularly likely in patients with extensive respiratory chain deficiency in the heart 21–25. Arrhythmias might be triggered, for example, during episodes of sepsis,26 lactic or keto-acidosis, metabolic or electrolyte derangement23 27 or with medication, toxin or alcohol ingestion 24 28–30…”

Section: Discussionmentioning

confidence: 99%

Arrhythmia prevalence and sudden death risk in adults with the m.3243A>G mitochondrial disorder

Bourke

Tynan

et al. 2022

Open Heart

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AimsTo define the prevalence of non-sustained tachyarrhythmias and bradyarrhythmias in patients with the m.3243A>G mitochondrial genotype and a previously defined, profile, associated with ‘high sudden-death risk’.Methods and resultsPatients at high risk of sudden death because of combinations of ventricular hypertrophy, mitochondrial encephalopathy, lactic acidosis and stroke-like episodes family phenotype, epilepsy or high mutation load, due to the m.3243A>G mutation, were identified from a mitochondrial cohort of 209 patients. All recruited had serial ECG and echo assessments previously according to schedule, had an ECG-loop recorder implanted and were followed for as long as the device allowed. Devices were programmed to detect non-sustained brady- or tachy-arrhythmias. This provided comprehensive rhythm surveillance and automatic downloads of all detections to a monitoring station for cardiology interpretation. Those with sinus tachycardia were treated with beta-blockers and those with ventricular hypertrophy received a beta-blocker and ACE-inhibitor combination.Nine consecutive patients, approached (37.2±3.9 years, seven males) and consented, were recruited. None died and no arrhythmias longer than 30s duration occurred during 3-year follow-up. Three patients reported palpitations but ECGs correlated with sinus rhythm. One manifest physiological, sinus pauses >3.5 s during sleep and another had one asymptomatic episode of non-sustained ventricular tachycardia.ConclusionsDespite ‘high-risk’ features for sudden death, those studied had negligible prevalence of arrhythmias over prolonged follow-up. By implication, the myocardium in this genotype is not primarily arrhythmogenic. Arrhythmias may not explain sudden death in patients without Wolff-Parkinson-White or abnormal atrioventricular conduction or, it must require a confluence of other, dynamic, proarrhythmic factors to trigger them.

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“…Contractility of the heart is a very energy demanding process, and the heart is therefore enabled to use various energetic substrates as a so-called "metabolic omnivore". However, throughout the development and in various pathologies, preferences of substrate utilization are changed or regulated [50]. Healthy adult hearts use fatty acids and carbohydrates as their predominant fuel, but cardiac disease such as hypertrophy and heart failure often lead to a more prominent use of glycolytic energy production [51].…”

Section: Heart Failure and Diabetes: Ventricular Arrhythmiasmentioning

confidence: 99%

SGLT2 Inhibitors and Their Antiarrhythmic Properties

Kolesnik

Scherr

Rohrer

et al. 2022

IJMS

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Sodium-glucose cotransporter 2 (SGLT2) inhibitors are gaining ground as standard therapy for heart failure with a class-I recommendation in the recently updated heart failure guidelines from the European Society of Cardiology. Different gliflozins have shown impressive beneficial effects in patients with and without diabetes mellitus type 2, especially in reducing the rates for hospitalization for heart failure, yet little is known on their antiarrhythmic properties. Atrial and ventricular arrhythmias were reported by clinical outcome trials with SGLT2 inhibitors as adverse events, and SGLT2 inhibitors seemed to reduce the rate of arrhythmias compared to placebo treatment in those trials. Mechanistical links are mainly unrevealed, since hardly any experiments investigated their impact on arrhythmias. Prospective trials are currently ongoing, but no results have been published so far. Arrhythmias are common in the heart failure population, therefore the understanding of possible interactions with SGLT2 inhibitors is crucial. This review summarizes evidence from clinical data as well as the sparse experimental data of SGLT2 inhibitors and their effects on arrhythmias.

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Changes in Myocardial Metabolism Preceding Sudden Cardiac Death

Cited by 10 publications

References 230 publications

The Pivotal Role of miRNA-21 in Myocardial Metabolic Flexibility in Response to Short- and Long-term High Glucose Treatment: Evidence in Human Cardiomyocyte Cell Line

The Pivotal Role of miRNA-21 in Myocardial Metabolic Flexibility in Response to Short- and Long-term High Glucose Treatment: Evidence in Human Cardiomyocyte Cell Line

Arrhythmia prevalence and sudden death risk in adults with the m.3243A>G mitochondrial disorder

SGLT2 Inhibitors and Their Antiarrhythmic Properties

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