作者
José Ángel Nicolás-Avila,Ana Victoria Lechuga‐Vieco,Lorena Esteban‐Martínez,María Sánchez-Díaz,Carolina Cubillos‐Zapata,Demetrio J. Santiago,Andrea Rubio-Ponce,Jackson Liang Yao Li,Akhila Balachander,Juan A. Quintana,Raquel Martinez de Mena,Beatriz Castejón‐Vega,Andrés Pun-García,Paqui G. Través,Elena Bonzón‐Kulichenko,Fernando Jose Garcia-Marques,Lorena Cussó,Noelia A‐Gonzalez,Andrés González-Guerra,Marta Roche-Molina,Sandra Martín-Salamanca,Georgiana Crainiciuc,Gabriela Guzmán,Jagoba Larrazabal,Elías Herrero‐Galán,Jorge Alegre‐Cebollada,Greg Lemke,Carla V. Rothlin,Luis Jesús Jiménez-Borreguero,Guillermo Reyes,Antonio Castrillo,Manuel Desco,Pura Muñoz‐Cánoves,Borja Ibáñez,Miguel Torres,Lai Guan Ng,Silvia G. Priori,Héctor Bueno,Jesús Vázquez,Mario D. Cordero,Juan A. Bernal,José Antonio Enríquez,Andrés Hidalgo
摘要
Cardiomyocytes are subjected to the intense mechanical stress and metabolic demands of the beating heart. It is unclear whether these cells, which are long-lived and rarely renew, manage to preserve homeostasis on their own. While analyzing macrophages lodged within the healthy myocardium, we discovered that they actively took up material, including mitochondria, derived from cardiomyocytes. Cardiomyocytes ejected dysfunctional mitochondria and other cargo in dedicated membranous particles reminiscent of neural exophers, through a process driven by the cardiomyocyte's autophagy machinery that was enhanced during cardiac stress. Depletion of cardiac macrophages or deficiency in the phagocytic receptor Mertk resulted in defective elimination of mitochondria from the myocardial tissue, activation of the inflammasome, impaired autophagy, accumulation of anomalous mitochondria in cardiomyocytes, metabolic alterations, and ventricular dysfunction. Thus, we identify an immune-parenchymal pair in the murine heart that enables transfer of unfit material to preserve metabolic stability and organ function. VIDEO ABSTRACT.