Abstract
Exosomes are nanoscale vesicles secreted by cells that play vital regulatory roles in intercellular communication and immune responses. Listeria monocytogenes (L. Monocytogenes, LM) is a notable Gram-positive intracellular parasitic bacterium that infects humans and diverse animal species. However, the specific biological function of exosomes secreted by macrophages during L. Monocytogenes infection (hereafter EXO-LM) remains elusive. Here, we discovered that EXO-LM stimulated the secretion of inflammation-associated cytokines by macrophages, facilitating the intracellular survival of L. monocytogenes within macrophages. Transcriptomic analysis shows that EXO-LM significantly upregulates immune recognition and inflammation-related signaling pathways in macrophages. Furthermore, a ceRNA regulatory network comprising exosomal ncRNAs and macrophage RNAs was constructed through EXO-LM transcriptome sequencing. Utilizing bioinformatics and dual-luciferase reporter assays, we identified two potential binding sites between lncRNA Rpl13a-213 and miR-132-3p. Cell transfection experiments demonstrated that Rpl13a-213 overexpression augmented pro-inflammatory cytokine expression in macrophages, in contrast to the suppression by miR-132-3p overexpression. The decrease in Rpl13a-213 upon EXO-LM stimulation enhances miR-132-3p expression, dampening the inflammatory response in macrophages and aiding L. monocytogenes intracellular survival. This study unveils the immunomodulatory function of exosomal ncRNAs originating from macrophages, which provides fresh perspectives into the mechanisms underlying macrophage inflammatory response regulation by L. monocytogenes-infected cell-derived exosomes.