1. Circulating microRNAs predispose to takotsubo syndrome following high-dose adrenaline exposure
- Author
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Anselm A Derda, Laura M Wienecke, Rory Clayton, Cesare M. Terracciano, Mayooran Shanmuganathan, Brian Wang, Jan Fiedler, Giles Chick, Alexander R. Lyon, Sian E. Harding, Lu Fu, Peter Wright, Pragati Pandey, Eef Dries, Thomas Thum, Jerome Fourre, Liam Couch, Richard J. Jabbour, British Heart Foundation, and Publica
- Subjects
0301 basic medicine ,Inotrope ,Cardiac & Cardiovascular Systems ,STRESS ,Physiology ,FEATURES ,Myocardial Infarction ,heart failure ,cardiomyocyte ,030204 cardiovascular system & hematology ,Basal (phylogenetics) ,0302 clinical medicine ,CONTRACTION ,Medicine ,Chronic stress ,Myocytes, Cardiac ,Myocardial infarction ,1102 Cardiorespiratory Medicine and Haematology ,IN-VIVO ,education.field_of_study ,Pathophysiology ,microRNAs ,in vivo ,HEART ,Cardiology and Cardiovascular Medicine ,Takotsubo syndrome ,Life Sciences & Biomedicine ,medicine.medical_specialty ,Epinephrine ,Population ,Heart failure ,Cardiomyocyte ,Stress ,GENE-TRANSFER ,TRANSDUCTION ,Adrenaline ,03 medical and health sciences ,Takotsubo Cardiomyopathy ,Physiology (medical) ,Internal medicine ,In vivo ,Animals ,Circulating MicroRNA ,education ,Science & Technology ,CARDIOMYOPATHY ,adrenaline ,business.industry ,MORTALITY ,medicine.disease ,Rats ,MODEL ,MicroRNAs ,030104 developmental biology ,Endocrinology ,Cardiovascular System & Hematology ,Coronary occlusion ,Cardiovascular System & Cardiology ,business - Abstract
Aims Takotsubo syndrome (TTS) is an acute heart failure, typically triggered by high adrenaline during physical or emotional stress. It is distinguished from myocardial infarction (MI) by a characteristic pattern of ventricular basal hypercontractility with hypokinesis of apical segments, and absence of coronary occlusion. We aimed to understand whether recently discovered circulating biomarkers miR-16 and miR-26a, which differentiate TTS from MI at presentation, were mechanistically involved in the pathophysiology of TTS. Methods and results miR-16 and miR-26a were co-overexpressed in rats with AAV and TTS induced with an adrenaline bolus. Untreated isolated rat cardiomyocytes were transfected with pre-/anti-miRs and functionally assessed. Ventricular basal hypercontraction and apical depression were accentuated in miR-transfected animals after induction of TTS. In vitro miR-16 and/or miR-26a overexpression in isolated apical (but not basal) cardiomyocytes produced strong depression of contraction, with loss of adrenaline sensitivity. They also enhanced the initial positive inotropic effect of adrenaline in basal cells. Decreased contractility after TTS-miRs was reproduced in non-failing human apical cardiomyocytes. Bioinformatic profiling of miR targets, followed by expression assays and functional experiments, identified reductions of CACNB1 (L-type calcium channel Cavβ subunit), RGS4 (regulator of G-protein signalling 4) and G-protein subunit Gβ (GNB1) as underlying these effects. Conclusion miR-16 and miR-26a sensitise the heart to TTS-like changes produced by adrenaline. Since these miRs have been associated with anxiety and depression, they could provide a mechanism whereby priming of the heart by previous stress causes an increased likelihood of TTS in the future. Translational perspective TTS-associated miRs have the potential to be active players predisposing to TTS. Feasibly, their measurement in recovered TTS patients during subsequent periods of stress could be used to predict likelihood of recurrence, a significant risk in this population, and allow preventative action. Since they have been reported as raised in anxiety and depression, they could be part of a priming mechanism where chronic stress predisposes to an acute episode. Understanding the mechanistic basis for the sensitisation may also allow design of other prophylactic pharmacological therapies, including the pre/anti-miR constructs which are now starting to reach the clinic.
- Published
- 2021