Abstract 117: Ponatinib Mediated Cardiotoxicity Is Driven By Pro-inflammatory S100A8/A9-NLRP3-IL-1β Signaling Circuit

Abstract

Background: Ponatinib is a third-generation tyrosine kinase inhibitor (TKI) for chronic myelogenous leukemia (CML) treatment. Of note, ponatinib is the only treatment option for CML patients with T315I (gatekeeper) mutation. Unexpected clinical cardiotoxicity, including fatal myocardial infarction and congestive heart failure, has hampered its clinical use. Herein, we aimed to investigate the cardiotoxic mechanism of ponatinib and strategies to prevent the cardiotoxic manifestations. Methods: We employed wild-type C57BL/6, cardiovascular (CV) comorbidity models e.g., transverse aortic constriction (TAC)-pressure overload (cardiac comorbidity) and high-fat diet fed ApoE -/- (vascular comorbidity), to investigate the cardiotoxic mechanism of ponatinib. Echocardiography was performed to assess cardiac function. Comprehensive immune profiling was performed to identify ponatinib-induced immune dynamics using flow cytometry analysis. Results: Echocardiographic assessment of ponatinib treated high-fat diet fed ApoE -/- and pressure overload (PO) murine model showed significant decline in cardiac function, suggesting the key role of CV-comorbidities in ponatinib-induced cardiomyopathy. An unbiased RNA-Seq analysis identified the enrichment of dysregulated inflammatory genes, including a multi-fold upregulation of alarmins S100A8/A9 as a top hit in ponatinib-treated hearts. A combination of in vitro and in vivo mechanistic analysis, identified that ponatinib activates the S100A8/9-TLR4-NLRP3-IL-1β signaling pathway in cardiac and systemic myeloid cells (monocytes and neutrophils), thereby leading to excessive myocardial and systemic inflammation. Finally, we demonstrate that ponatinib-induced excessive inflammation is central to the cardiac pathology because a broad immunosuppressive agent dexamethasone abolished the adverse cardiac remodeling and dysfunction of ponatinib treated hearts. Conclusions: These findings uncover a novel mechanism of ponatinib-induced cardiac inflammation leading to cardiac dysfunction. Our results provide critical preclinical data and rationale for clinical investigation into immunosuppressive interventions to mitigate ponatinib-induced cardiotoxicity.