Litcius/Paper detail

Cardiac Damage in Anthracyclines Therapy: Focus on Oxidative Stress and Inflammation

Carmine Rocca, Teresa Pasqua, Maria Carmela Cerra, Tommaso Angelone

2020Antioxidants and Redox Signaling74 citationsDOI

Abstract

Significance: Despite their serious side effects, anthracyclines (ANTs) are the most prescribed chemotherapeutic drugs because of their strong efficacy in both solid and hematological tumors. A major limitation to ANTs clinical application is the severe cardiotoxicity observed both acutely and chronically. The mechanism underlying cardiac dysfunction under chemotherapy is mainly dependent on the generation of oxidative stress and systemic inflammation, both of which lead to progressive cardiomyopathy and heart failure. Recent Advances: Over the years, the iatrogenic ANTs-induced cardiotoxicity was believed to be simply given by iron metabolism and reactive oxygen species production; however, several experimental data indicate that ANTs may use alternative damaging mechanisms, such as topoisomerase 2β inhibition, inflammation, pyroptosis, immunometabolism, and autophagy. Critical Issues: In this review, we aimed at discussing ANTs-induced cardiac injury from different points of view, updating and focusing on oxidative stress and inflammation, since these pathways are not exclusive or independent from each other but they together importantly contribute to the complexity of ANTs-induced multifactorial cardiotoxicity. Future Directions: A deeper understanding of the mechanistic signaling leading to ANTs side effects could reveal crucial targeting molecules, thus representing strategic knowledge to promote better therapeutic efficacy and lower cardiotoxicity during clinical application.

Topics & Concepts

CardiotoxicityOxidative stressInflammationAutophagyCardiac dysfunctionMedicineCardiomyopathyMechanism (biology)Heart failureReactive oxygen speciesBioinformaticsPharmacologyBiologyImmunologyChemotherapyInternal medicineApoptosisCell biologyBiochemistryEpistemologyPhilosophyChemotherapy-induced cardiotoxicity and mitigationTakotsubo Cardiomyopathy and Associated PhenomenaElectron Spin Resonance Studies