Abstract

Anthracyclines remain the cornerstone in the treatment of many malignancies including lymphomas, leukaemias, and sarcomas. Unfortunately, the clinical use of these potent chemotherapeutics is severely limited by the development of a progressive dose-dependent cardiomyopathy that irreversibly evolves toward congestive heart failure. The molecular mechanisms responsible for anthracycline anticancer activity as well as those underlying anthracycline-induced cardiotoxicity are incompletely understood and remain a matter of remarkable controversy. Anthracyclines have long been considered to induce cardiotoxicity by mechanisms different from those mediating their anticancer activity. In particular, anthracycline antitumor efficacy is associated with nuclear DNA intercalation, topoisomerase II inhibition and drug-DNA adducts formation, whereas the cardiotoxicity is prevalently ascribed to oxidative stress and mitochondrial dysfunction. At present, however, the view that distinct mechanisms are implied in anticancer and cardiotoxic responses to anthracycline therapy does not seem fully convincing since beneficial (anticancer) and detrimental (cardiotoxic) effects are to some extent overlapping, share the subcellular organelle targets, the molecular effectors and the pathophysiological processes (i.e. DNA strand breaks, oxidative stress, signalling pathways, mitochondrial dysfunctions, apoptosis etc.).Here, we review the potential role of mitochondria in the molecular mechanisms underlying anthracyclines anticancer activity as well as in the pathogenesis of anthracycline-induced cardiotoxicity.
Lingua originaleEnglish
pagine (da-a)385-419
Numero di pagine35
RivistaAdvances in Experimental Medicine and Biology
Stato di pubblicazionePubblicato - 2012

Keywords

  • mitochondria

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