Moreno-Loaiza Oscar, Soares Vinicius Cardoso, de Assumpção Souza Manuela, Vera-Nuñez Narendra, Rodriguez de Yurre Guirao Ainhoa, da Silva Tatiana Pereira, Pozes Ana Beatriz, Perticarrari Larissa, Monteiro Evelin, Albino Maria Clara, Silva Sophia Barros, Dias Suelen Silva Gomes, Maciel Leonardo, Muzi-Filho Humberto, de Oliveira Dahienne Ferreira, Braga Bruno Cabral, Diniz Luan Pereira, Cruz Mario Costa, Barbosa Simone Reis, Castro-Junior Archimedes Barbosa, Conde Luciana, Cabral-Castro Mauro Jorge, de Souza Olga Ferreira, Tavares Pinheiro Martha Valéria, Araújo de Oliveira Junior Nilson, Rezende de Siqueira Leonardo, Cosenza Rodrigo Periquito, Munhoz da Fontoura Claudio, Secco Jose Carlos Pizzolante, da Rocha Ferreira Juliana, Silvestre de Sousa Andréa, Albuquerque Denilson, Luiz Ronir Raggio, Nicolau-Neto Pedro, Pretti Marco Antonio, Boroni Mariana, Bonamino Martin Hernán, Kasai-Brunswick Tais Hanae, Mello Debora Bastos, Gonçalves-Silva Triciana, Ramos Isalira Peroba, Bozza Fernando A, Madeiro João Paulo do Vale, Pedrosa Roberto Coury, Carneiro-Ramos Marcela Sorelli, da Silva Martinho Herculano, Bozza Patrícia T, Mesquita de Souza Fernanda, Victor Lucena da Silva Gabriel, Cunha Thiago M, Uzelac Ilija, Fenton Flavio, Moll-Bernardes Renata, Paiva Claudia N, Escobar Ariel L, Medei Emiliano
Institute of Biophysics Carlos Chagas Filho, Federal University of Rio de Janeiro, Rio de Janeiro, Brazil.
D'Or Institute for Research and Education (IDOR), Rio de Janeiro, Brazil.
Nat Cardiovasc Res. 2025 Mar;4(3):312-329. doi: 10.1038/s44161-025-00610-8. Epub 2025 Feb 6.
Atrial fibrillation (AF) is more prevalent in patients with elevated interleukin (IL)-1β levels. Here we show that daily administration of IL-1β for 15 days sensitizes mice to AF, leading to fibrosis, accumulation of β-pleated sheet proteins in the left atrium, and systemic inflammation, resembling the pathophysiological changes observed in patients with AF. IL-1β administration creates a positive feedback loop, dependent on the IL-1 receptor (IL-1R) activity in cardiac resident macrophages. This results in increased caspase-1 maturation in the left atrium and elevated Il1b and Casp1 transcription in atrial macrophages. IL-1β treatment accelerated action potential and Ca restitution in the left atrium, leading to action-potential shortening. This, along with increased caspase-1 maturation and IL-1R signaling, was essential for inducing AF. Lack of IL-1R in macrophages, but not cardiomyocytes, prevented IL-1β-induced AF sensitivity. By depleting recruited macrophages or deleting IL-1R specifically in cardiac resident macrophages, we further demonstrate that IL-1β/IL-1R signaling in these resident macrophages is responsible for increased AF susceptibility. These findings offer insights into the therapeutic potential of targeting IL-1β/IL-1R signaling in patients with AF and emphasize the importance of recognizing different underlying causes in this patient group.
白细胞介素(IL)-1β水平升高的患者中,心房颤动(AF)更为常见。在此我们表明,连续15天每日给予IL-1β会使小鼠对AF敏感,导致纤维化、左心房β折叠蛋白积聚和全身炎症,类似于在AF患者中观察到的病理生理变化。给予IL-1β会产生一个正反馈回路,该回路依赖于心脏驻留巨噬细胞中的IL-1受体(IL-1R)活性。这导致左心房中半胱天冬酶-1成熟增加,以及心房巨噬细胞中Il1b和Casp1转录升高。IL-1β处理加速了左心房的动作电位和Ca恢复,导致动作电位缩短。这与半胱天冬酶-1成熟增加和IL-1R信号传导一起,对于诱导AF至关重要。巨噬细胞而非心肌细胞中缺乏IL-1R可防止IL-1β诱导的AF敏感性。通过耗尽募集的巨噬细胞或特异性删除心脏驻留巨噬细胞中的IL-1R,我们进一步证明这些驻留巨噬细胞中的IL-1β/IL-1R信号传导导致AF易感性增加。这些发现为靶向AF患者的IL-1β/IL-1R信号传导的治疗潜力提供了见解,并强调了认识该患者群体中不同潜在病因的重要性。
