Cystic fibrosis transmembrane conductance regulator potentiators attenuate platelet activation and aggregation in blood of healthy donors and COVID-19 patients

Abstract

Cystic fibrosis transmembrane conductance regulator (CFTR) is a Cl - channel and ABC transporter; its mutations cause the clinical picture of cystic fibrosis (CF). Of late, CFTR has emerged as an important regulator of platelet function, as CFTR dysfunction causes agonist-induced platelet hyperactivation. These findings are reminiscent of platelets from SARS-CoV-2 infected patients since thromboembolic complications represent hallmarks of severe COVID-19 that may critically contribute to morbidity and mortality. CFTR modulators have recently been introduced as a treatment for patients with various CFTR mutations, but have also been reported by us and others to enhance channel function of wild type CFTR. We therefore postulated that CFTR modulators may exert anti-coagulant effects on platelets of healthy donors (HD) and COVID-19 patients.We recruited 36 COVID-19 patients with moderate, and 34 COVID-19 patients with severe disease course (all w/o anti-platelet drugs), and 38 HDs. In line with our hypothesis, we observed significant reductions in platelet agonists adenosine diphosphate (ADP)- or thrombin receptor activating protein-6 (TRAP6)-induced CD62p/CD63 expression, Ca 2+ -mobilization, aggregation, and adhesion of platelets from HDs by pre-treatment with ivacaftor. In blood from COVID-19 patients, platelet activation correlates with disease severity, as demonstrated by a 5-fold and 8-fold increase in the proportion of CD62p + platelets from patients with moderate and severe disease, respectively, relative to HDs. Similarly, the proportion of CD63 + platelets in patients with severe COVID-19 was 2-fold higher than in HDs. Retrospective analysis of clinical data from a total of 4,050 CF patients with COVID-19 receiving single or combination therapy of ivacaftor, lumacaftor, tezacaftor, or elexacaftor in comparison to an untreated cohort revealed that CF therapy reduced the relative risk to suffer thromboembolism-associated cardiovascular events such as heart attack or deep vein thrombosis by 50.0% or 61.1%, respectively, suggesting an anti-thrombotic effect of CFTR modulators in CF COVID-19 patients. In line with this observation, ex vivo pre-treatment of platelets from acute COVID-19 patients with ivacaftor reduced Ca 2+ mobilization, adhesion, and aggregation of platelets .Our results demonstrate an anticoagulant effect of CFTR potentiators on platelets from HDs and severe COVID-19 patients and thus, suggest CFTR potentiators as a promising strategy to reduce the risk of thrombotic events in the clinical management of COVID-19 and similar pro-thrombotic disease states. F. Behrens received funding from the Berlin Institute of Health (BIH). L. Michalick reports grants from the BIH and the German Centre for Cardiovascular Research (DZHK). A. Haghikia is participant in the BIH-Charité Advanced Clinician Scientist Pilotprogram funded by the Charité - Universitätsmedizin Berlin and the BIH and reports a research grant within the BIH & MDC Focus Area Translational Vascular Biomedicine. R. Preissner reports partial funding of this work by the German Research Foundation (KFO339, TRR295). M. Witzenrath reports grants from the German Research Foundation (SFB-TR84 C06 and C09, SFB 1449 B02), and from the German Ministry of Education and Research (BMBF) in the framework of CAPSyS (01ZX1604B, 01ZX1304B), SYMPATH (01ZX1906A), PROVID (01KI20160A), Phage4Cure (16GW0141), MAPVAP (16GW0247) and NUM-NAPKON. W. M. Kuebler reports grants from the German Research Foundation (SFB-TR84 A2 and C9, SFB 1449 B1, SFB 1470 A4, KU1218/9-1, KU1218/11-1, and KU1218/12-1), the BMBF in the framework of SYMPATH (01ZX1906A) and PROVID (01KI20160A), and the DZHK. S. Simmons reports grants from the DZHK and the German Foundation for Heart Research (F-09-19). This is the full abstract presented at the American Physiology Summit 2023 meeting and is only available in HTML format. There are no additional versions or additional content available for this abstract. Physiology was not involved in the peer review process.