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 β-AR stimulation. Conclusions: Our data indicate that crosstalk between macrophages and cardiac cells participates in cardiac damage in response to Dox.
Infiltrating macrophages amplify doxorubicin-induced cardiac damage: role of catecholamines / Gambardella, Jessica; Santulli, Gaetano; Fiordelisi, Antonella; Cerasuolo, Federica Andrea; Wang, Xujun; Prevete, Nella; Sommella, Eduardo; Avvisato, Roberta; Buonaiuto, Antonietta; Altobelli, Giovanna Giuseppina; Rinaldi, Laura; Chiuso, Francesco; Feliciello, Antonio; Dal Piaz, Fabrizio; Campiglia, Pietro; Ciccarelli, Michele; Morisco, Carmine; Sadoshima, Junichi; Iaccarino, Guido; Sorriento, Daniela. - In: CELLULAR AND MOLECULAR LIFE SCIENCES. - ISSN 1420-9071. - 80:11(2023), p. 323. [10.1007/s00018-023-04922-5]
Infiltrating macrophages amplify doxorubicin-induced cardiac damage: role of catecholamines
Gambardella, Jessica;Santulli, Gaetano;Fiordelisi, Antonella;Cerasuolo, Federica Andrea;Prevete, Nella;Sommella, Eduardo;Avvisato, Roberta;Buonaiuto, Antonietta;Altobelli, Giovanna Giuseppina;Rinaldi, Laura;Chiuso, Francesco;Feliciello, Antonio;Ciccarelli, Michele;Morisco, Carmine;Iaccarino, Guido;Sorriento, Daniela
2023
Abstract
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 β-AR stimulation. Conclusions: Our data indicate that crosstalk between macrophages and cardiac cells participates in cardiac damage in response to Dox.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
