Oscar Moreno-Loaiza, Vinicius Cardoso Soares, Manuela de Assumpção Souza, Narendra Vera-Nuñez, Ainhoa Rodriguez de Yurre Guirao, Tatiana Pereira da Silva, Ana Beatriz Pozes, Larissa Perticarrari, Evelin Monteiro, Maria Clara Albino, Sophia Barros Silva, Suelen Silva Gomes Dias, Leonardo Maciel, Humberto Muzi-Filho, Dahienne Ferreira de Oliveira, Bruno Cabral Braga, Luan Pereira Diniz, Mario Costa Cruz, Simone Reis Barbosa, Archimedes Barbosa Castro-Junior, Luciana Conde, Mauro Jorge Cabral-Castro, Olga Ferreira de Souza, Martha Valéria Tavares Pinheiro, Nilson Araújo de Oliveira Junior, Leonardo Rezende de Siqueira, Rodrigo Periquito Cosenza, Claudio Munhoz da Fontoura, Jose Carlos Pizzolante Secco, Juliana da Rocha Ferreira, Andréa Silvestre de Sousa, Denilson Albuquerque, Ronir Raggio Luiz, Pedro Nicolau-Neto, Marco Antonio Pretti, Mariana Boroni, Martin Hernán Bonamino, Tais Hanae Kasai-Brunswick, Debora Bastos Mello, Triciana Gonçalves-Silva, Isalira Peroba Ramos, Fernando A Bozza, João Paulo do Vale Madeiro, Roberto Coury Pedrosa, Marcela Sorelli Carneiro-Ramos, Herculano da Silva Martinho, Patrícia T Bozza, Fernanda Mesquita de Souza, Gabriel Victor Lucena da Silva, Thiago M Cunha, Ilija Uzelac, Flavio Fenton, Renata Moll-Bernardes, Claudia N Paiva, Ariel L Escobar, Emiliano Medei
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Abstract
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 Ca2+ 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.
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