Affiliations
Iñaki Robles-Vera, Aitor Jarit-Cabanillas, Paola Brandi, María Martínez-López, Sarai Martínez-Cano, Manuel Rodrigo-Tapias, Marcos Femenía-Muiña, Ana Redondo-Urzainqui, Vanesa Nuñez, Cristina González-Correa, Javier Moleón, Juan Duarte, Laura Conejero, Pablo Mata-Martínez, Carmen María Díez-Rivero, Marta Bergón-Gutiérrez, Iván Fernández-López, Manuel J Gómez, Ana Quintas, Ana Dopazo, Fátima Sánchez-Cabo, Esther Pariente, Carlos Del Fresno, José Luis Subiza, Salvador Iborra, David Sancho
DOI: 10.1016/j.immuni.2024.12.012
Abstract
Impairment of the intestinal barrier allows the systemic translocation of commensal bacteria, inducing a proinflammatory state in the host. Here, we investigated innate immune responses following increased gut permeability upon administration of dextran sulfate sodium (DSS) in mice. We found that Enterococcus faecalis translocated to the bone marrow following DSS treatment and induced trained immunity (TI) hallmarks in bone-marrow-derived mouse macrophages and human monocytes. DSS treatment or heat-killed E. faecalis reprogrammed bone marrow progenitors (BMPs), resulting in enhanced inflammatory responses in vitro and in vivo and protection against subsequent pathogen infections. The C-type lectin receptor Mincle (Clec4e) was essential for E. faecalis-induced TI in BMPs. Clec4e
Keywords
Mincle receptor, bone marrow progenitors, gut bacterial translocation, inflammation, macrophages, trained immunity,CD11C
