4.7 Article

Infiltrating macrophages amplify doxorubicin-induced cardiac damage: role of catecholamines

Journal

CELLULAR AND MOLECULAR LIFE SCIENCES
Volume 80, Issue 11, Pages -

Publisher

SPRINGER BASEL AG
DOI: 10.1007/s00018-023-04922-5

Keywords

Doxorubicin; Macrophages; p53; Mitochondria; Mitophagy; beta-AR; Catecholamines

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The role of macrophages in cardiac damage elicited by Dox treatment was evaluated in this study. The results showed that macrophage infiltration preceded cardiac damage induced by Dox, and macrophage depletion prevented Dox-induced damage. In vitro experiments demonstrated that catecholamines released by Dox-activated macrophages induced mitochondrial apoptosis of cardiac cells through beta-AR stimulation. This indicates the importance of the crosstalk between macrophages and cardiac cells in Dox-induced cardiac damage.
Background The functional contribution of non-myocyte cardiac cells, such as inflammatory cells, in the setup of heart failure in response to doxorubicin (Dox) is recently becoming of growing interest.Objectives The study aims to evaluate the role of macrophages in cardiac damage elicited by Dox treatment.Methods C57BL/6 mice were treated with one intraperitoneal injection of Dox (20 mg/kg) and followed up for 5 days by cardiac ultrasounds (CUS), histological, and flow cytometry evaluations. We also tested the impact of Dox in macrophage-depleted mice. Rat cardiomyoblasts were directly treated with Dox (D-Dox) or with a conditioned medium from cultured murine macrophages treated with Dox (M-Dox).Results In response to Dox, macrophage infiltration preceded cardiac damage. Macrophage depletion prevents Dox-induced damage, suggesting a key role of these cells in promoting cardiotoxicity. To evaluate the crosstalk between macrophages and cardiac cells in response to DOX, we compared the effects of D-Dox and M-Dox in vitro. Cell vitality was lower in cardiomyoblasts and apoptosis was higher in response to M-Dox compared with D-Dox. These events were linked to p53-induced mitochondria morphology, function, and autophagy alterations. We identify a mechanistic role of catecholamines released by Dox-activated macrophages that lead to mitochondrial apoptosis of cardiac cells through beta-AR stimulation.Conclusions Our data indicate that crosstalk between macrophages and cardiac cells participates in cardiac damage in response to Dox.

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