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Autonomic dysfunction and vasoregulation in long COVID-19 are linked to anti-GPCR autoantibodies

Boris Schmitz, René Garbsch, Hendrik Schäfer, Christian v. Bar, Shambhabi Chatterjee, Gabriela Riemekasten, Kai Schulze‐Forster, Harald Heidecke, Christoph Schultheiß, Mascha Binder, Frank C. Mooren

2025Journal of Allergy and Clinical Immunology7 citationsDOIOpen Access PDF

Abstract

BACKGROUND: Severe acute respiratory syndrome coronavirus 2-triggered autoantibodies (AABs) targeting G protein-coupled receptors have been suggested to contribute to the post-acute sequelae of coronavirus disease 2019 (or post-COVID-19 syndrome [PCS]). OBJECTIVE: We sought to characterize AABs involved in autonomic dysfunction such as rhythm control and vasoregulation in patients with PCS and profile the peripheral B- and T-cell receptor (BCR/TCR) architecture to identify immunogenetic imprints of autoimmunity. METHODS: Anti-G protein-coupled receptor AABs were characterized in patients with PCS with known alteration in autonomic nervous system functions assessed by heart rate variability. Adaptive immune receptor repertoire sequencing was used to profile peripheral BCR and TCR architecture. Patients with COVID-19 with severe or moderate acute disease, after recovery, and prepandemic healthy individuals served as controls. Cardio- and vasoactive effects of AABs were analyzed using 24-hour and exercise test blood pressure measurements. The direct effect of AABs on electromechanical coupling was tested in human-induced pluripotent stem cell cardiomyocytes. RESULTS: AABs including autoantibody against angiotensin II receptor type 1/2, autoantibody against adrenoceptor beta 1/2, autoantibody against muscarinic acetylcholine receptor M1/M3, and autoantibody against C-X-C motif chemokine receptor 3 (CXCR3ab) were associated with heart rate variability alterations. Analysis of the broad BCR repertoire metrics revealed high similarity between patients with PCS and healthy controls for clonality and diversity measures. The level of somatic hypermutation as proxy for antigen experience was equal to that of healthy controls. Elevated CXCR3ab levels were linked to higher 24-hour mean arterial pressure, whereas patients with elevated autoantibody against muscarinic acetylcholine receptor M1 and CXCR3ab levels showed higher blood pressure during stress tests. AABs had no effect on beat frequency and amplitude of cardiomyocyte contraction in vitro. CONCLUSIONS: These findings suggest that AABs play a modulatory role in sympathetic nervous system-mediated regulation of cardiac rhythm and vascular function in PCS. AAB levels did not correlate with BCR and TCR repertoire metrics or T-cell receptor beta variable gene usage.

Topics & Concepts

AutoantibodyMedicineAutonomic nervous systemNeuroscienceSympathetic nervous systemReceptorT-cell receptorImmunologyFunction (biology)Internal medicinePeripheralCentral nervous systemGeneEndocrinologyNervous systemAutoimmunityBlood pressureBiologyAdrenergic receptorPeripheral nervous systemLong-Term Effects of COVID-19COVID-19 Clinical Research StudiesVagus Nerve Stimulation Research
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