Showing papers by "Charles Antzelevitch published in 2022"
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TL;DR: In this paper , a genome-wide association meta-analysis was performed to identify new susceptibility genes for Brugada syndrome, including new susceptibility loci for SCN5A and MAPRE2, encoding the microtubule plus-end binding protein EB2.
Abstract: Brugada syndrome (BrS) is a cardiac arrhythmia disorder associated with sudden death in young adults. With the exception of SCN5A, encoding the cardiac sodium channel NaV1.5, susceptibility genes remain largely unknown. Here we performed a genome-wide association meta-analysis comprising 2,820 unrelated cases with BrS and 10,001 controls, and identified 21 association signals at 12 loci (10 new). Single nucleotide polymorphism (SNP)-heritability estimates indicate a strong polygenic influence. Polygenic risk score analyses based on the 21 susceptibility variants demonstrate varying cumulative contribution of common risk alleles among different patient subgroups, as well as genetic associations with cardiac electrical traits and disorders in the general population. The predominance of cardiac transcription factor loci indicates that transcriptional regulation is a key feature of BrS pathogenesis. Furthermore, functional studies conducted on MAPRE2, encoding the microtubule plus-end binding protein EB2, point to microtubule-related trafficking effects on NaV1.5 expression as a new underlying molecular mechanism. Taken together, these findings broaden our understanding of the genetic architecture of BrS and provide new insights into its molecular underpinnings. Genome-wide association analyses identify new susceptibility loci for Brugada syndrome. Functional studies implicate microtubule-related trafficking effects on sodium channel expression as an underlying molecular mechanism.
40 citations
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TL;DR: This preclinical study provides pharmacological and functional evidence to suggest that Acacetin may be a novel therapeutic for patients with KCND3 gain-of-function-associated J wave syndrome by inhibiting Ito and abolishing the accentuated action potential notch in patient-derived iPSC-CMs.
Abstract: Background: The transient outward current (Ito) that mediates early (phase 1) repolarization is conducted by the KCND3-encoded Kv4.3 pore-forming α-subunit. KCND3 gain-of-function mutations have been reported previously as a pathogenic substrate for J wave syndromes (JWS), including the Brugada syndrome and early repolarization syndrome, as well as autopsy-negative sudden unexplained death (SUD). Acacetin, a natural flavone, is a potent Ito current blocker. Acacetin may be a novel therapeutic for KCND3-mediated J wave syndrome. Methods: KCND3-V392I was identified in an 18-year-old male with J wave syndrome/early repolarization syndrome, and a history of cardiac arrest including ventricular tachycardia/ventricular fibrillation and atrial fibrillation/atrial flutter. Pathogenic KCND3 mutation was engineered by site-directed mutagenesis and co-expressed with wild-type KChIP2 in TSA201 cells. Gene-edited/variant-corrected isogenic control and patient-specific pluripotent stem cell–derived cardiomyocytes (iPSC-CMs) from the p. Val392Ile-KCND3-positive patient were generated. Ito currents and action potentials were recorded before and after treatment with Acacetin using the whole cell patch-clamp and multielectrode array technique. Western blot and immunocytochemistry were performed to investigate KCND3 expression. Results: KCND3-V392I demonstrated a marked gain-of-function phenotype, increasing peak Ito current density by 92.2% (P<0.05 versus KCND3-WT). KCND3 expression was significantly increased in KCND3-V392I-derived iPSC-CMs (P<0.05 versus isogenic control). While KCND3-WT revealed an IC50 of 7.2±1.0 µmol/L for acacetin effect, 30 µmol/L acacetin dramatically inhibited KCND3-V392I peak Ito current density by 96.2% (P<0.05 versus before Acacetin). Ito was also increased by 60.9% in Kv4.3-V392I iPSC-CM (P<0.05 versus isogenic control iPSC-CM). Ten micromoles per liter acacetin, a concentration approaching its IC50 value, inhibited Ito by ≈50% in patient-derived iPSC-CMs and reduced the accentuated action potential notch displayed in KCND3-V392I-derived iPSC-CMs. Conclusions: This preclinical study provides pharmacological and functional evidence to suggest that Acacetin may be a novel therapeutic for patients with KCND3 gain-of-function-associated J wave syndrome by inhibiting Ito and abolishing the accentuated action potential notch in patient-derived iPSC-CMs.
4 citations
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TL;DR: The predominant arrhythmogenic mechanism in hypokalemia is through inhibition of cardiac Na+/K+ ATPase, which results in accumulation of intracellular Na+, which reduces the concentration gradient across the sodium/calcium exchanger as discussed by the authors .
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TL;DR: To identify a subset of 12‐lead ECG variables of benefit associated with underlying Brugada syndrome (BrS)/DI‐Type 1 BrP among patients with slow/fast AVNRT, a large number of patients were diagnosed with atrioventricular nodal reentrant tachycardia.