Efficient compartmentalization in insect bacteriomes protects symbiotic bacteria from host immune system

• Published in: Microbiome Vol. 10; no. 1; pp. 1 - 156
• Main Authors: Ferrarini, Mariana Galvão, Dell’Aglio, Elisa, Vallier, Agnès, Balmand, Séverine, Vincent-Monégat, Carole, Hughes, Sandrine, Gillet, Benjamin, Parisot, Nicolas, Zaidman-Rémy, Anna, Vieira, Cristina, Heddi, Abdelaziz, Rebollo, Rita
• Format: Journal Article
• Language: English
• Published: London BioMed Central 27.09.2022; BMC
• Subjects: Antimicrobial agents; Antimicrobial peptides; Bacteria; Bacterial infections; Coleoptera; Endosymbionts; Gene expression; Genomes; Homeostasis; Humidity; Immune response; Immune system; Immunity; Immunogenicity; Immunohistochemistry; Infections; Innate immunity; Insects; Life Sciences; Microbiology and Parasitology; Microorganisms; Peptidoglycans; Symbiosis; TCT; Transcriptomics; Symbiosis; Bacteria; TCT; Coleoptera; Immunity; Antimicrobial peptides
• ISSN: 2049-2618; 2049-2618
• DOI: 10.1186/s40168-022-01334-8

Abstract Background Many insects house symbiotic intracellular bacteria (endosymbionts) that provide them with essential nutrients, thus promoting the usage of nutrient-poor habitats. Endosymbiont seclusion within host specialized cells, called bacteriocytes, often organized in a dedicated organ, the bacteriome, is crucial in protecting them from host immune defenses while avoiding chronic host immune activation. Previous evidence obtained in the cereal weevil Sitophilus oryzae has shown that bacteriome immunity is activated against invading pathogens, suggesting endosymbionts might be targeted and impacted by immune effectors during an immune challenge. To pinpoint any molecular determinants associated with such challenges, we conducted a dual transcriptomic analysis of S. oryzae ’s bacteriome subjected to immunogenic peptidoglycan fragments. Results We show that upon immune challenge, the bacteriome actively participates in the innate immune response via induction of antimicrobial peptides (AMPs). Surprisingly, endosymbionts do not undergo any transcriptomic changes, indicating that this potential threat goes unnoticed. Immunohistochemistry showed that TCT-induced AMPs are located outside the bacteriome, excluding direct contact with the endosymbionts. Conclusions This work demonstrates that endosymbiont protection during an immune challenge is mainly achieved by efficient confinement within bacteriomes, which provides physical separation between host systemic response and endosymbionts.