Abstract Background Recently, the results of the STEP-HFpEF trial were announced, in which high-dose treatment with the antidiabetic glucagon-like-peptide 1 agonist semaglutide resulted in a significant improvement of HFpEF-associated symptoms and reduction of NT-proBNP levels. Interestingly, treatment effects were independent of initial body weight and left-ventricular ejection fraction, sparking interest regarding the precise mechanism of action. Purpose We tested the effects of acute semaglutide treatment in isolated human right-atrial trabeculae. Methods Trabeculae were prepared from right atrial appendage biopsies from 32 patients undergoing elective coronary artery bypass grafting and/or valve surgery. Regular contractions were elicited by electrical field stimulation (1Hz, 5V/50ms, 37°C). Paired experiments were performed simultaneously per patient with a control group and one exposed to semaglutide (100 or 300nM). Developed tension was analysed at steady state after 30 min. Arrhythmias were defined as deviations from baseline not arising from electrical stimulation. L-type calcium channel blockade was achieved with nifedipine (2µM) in some experiments. Rapid cooling contraction was elicited to assess sarcoplasmic reticulum Ca2+ content (RCC1) by rapidly superfusing the trabeculae with chilled solution (2°C). After a short rewarming period of 10s to 37°C, RCC was repeated to assess the Na+/Ca2+ exchanger function (RCC2). Statistical analysis was conducted using paired t-test or Wilcoxon test as appropriate (for 2 groups) and one-way ANOVA with test for trend (for >2 groups). Results Exposure to semaglutide increased developed tension by over 3-fold in human atrial trabeculae in a dose-dependent manner: from 3.14±1.14 for control to 5.43±2.35mN/mm2 for 100nM semaglutide (p=0.03 vs. control) to 12.5±3.53 for 300nM semaglutide (p=0.004 vs. control, mean±SEM, fig. A-D, p=0.005 for linear trend). L-type calcium channel blockade with nifedipine blunted developed tension overall but did not abolish the effect of semaglutide (fig. E, p=0.02). In contrast, the developed tensions upon RCC1 and RCC2 were increased by semaglutide (300nM) compared to control, while the ratio of RCC2:RCC1 was elevated by semaglutide, indicating both increased SR Ca2+ reuptake and less external Ca2+ removal in the presence of semaglutide (fig. H-J). Relaxation time to 50% of baseline was unaltered (not shown), while relaxation time to 90% of baseline was mildly prolonged by semaglutide at 300 nM (fig. F). No increase in the rate of arrhythmias was observed by semaglutide treatment (fig. G). Conclusion Acute exposure of human atrial trabeculae to semaglutide results in a strong positive inotropic effect in a dose-dependent manner without increasing the propensity for arrhythmias. This effect is most likely due to increased SR Ca2+ reuptake. Treatment of heart failure patients with high-dose semaglutide can improve atrial function, which may ameliorate symptoms.
Read full abstract