Abstract
Abstract Funding Acknowledgements Type of funding sources: Public grant(s) – National budget only. Main funding source(s): M.I.U.R. PRIN 2017 Background and purpose Increased inflammatory cytokines, including interleukin 6 (IL-6), are associated to enhanced arrhythmogenic risk, including atrial fibrillation [1]. Moreover, direct effects of cytokines on ion channels are emerging as important mediators of arrhythmogenic remodeling [2]. In line with this, enhanced arrhythmogenesis in COVID-19 patients is hypothesized to be driven by cytokine storms, a well demonstrated condition in this setting [3]. To dissect the underlying mechanisms explaining such an association, we evaluated the proarrhythmogenic alterations of IL-6, assessing the impact on the expression of Hyperpolarization-activated cyclic nucleotide–gated (HCN) channels, of the regulatory subunits MiRP1, and on the action potential (AP) profile in HL-1 cardiomyocytes (CMs). In human left atrial samples we studied the relation occurring between the expression levels of IL-6 and of HCN channels. In human induced pluripotent stem cell (hiPSC)-derived CMs we evaluated the acute effects of IL-6 on pacemaker activity. Methods HL-1 CMs exposed to 50 ng/ml IL-6 or vehicle were collected after 0, 0.5, 6, 12, 24 and 48 h to study intracellular signaling, ion channel expression and AP profile. The latter was assessed through a high-throughput system allowing optical detection of APs with optical stimulation. In human atrial samples obtained from patients undergoing surgery, IL-6 and HCN mRNA expression were analyzed by quantitative RT-PCR. The acute effects on pacemaker activity were evaluated in hiPSC-derived CMs exposed to increasing concentrations of IL-6. Results In HL1 CMs IL-6 rapidly induces STAT3 phosphorylation, demonstrating the activation of IL-6 signaling cascade. IL-6 modifies HCN channel transcript and proteins at different time points, evidencing a significant downregulation of HCN4 isoform and significant upregulations of HCN1, HCN2 and MiRP1. In line with this, in human left atrial samples, expression levels of IL-6 were linearly and directly related to HCN1 channel, while they were linearly and inversely related to HCN4. Electrophysiological recordings on HL-1 CMs showed a decreasing trend of AP amplitude and of maximum diastolic potential, while AP durations tended to increase. In hiPSC-derived CMs IL-6 reduces the frequency of AP in a concentration-dependent manner. Conclusions Our data demonstrate that in HL-1 CMs IL-6 activates a STAT3 dependent intracellular signaling that is associated to subsequent variation of HCN channel expression and a concurrent alteration of AP profile. The relation between IL-6 and HCN1,4 expression in human samples suggests a mechanistic link between IL-6 levels and ionic channel targets, including HCN channels. The reduction of AP frequency in hiPSC-derived CMs suggests a direct interaction with ion channels. We hypothesize that these modifications may lay the basis to enhance the propensity of atria to develop arrhythmias in condition of elevate IL-6 levels.
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