The 94th Annual Meeting of Japanese Society for Bacteriology

Presentation information

Workshop

[WS4] Selected from Oral Session: Microbial Taxonomy, Physiology, Structure and Ecology / Application of Microorganisms

Tue. Mar 23, 2021 4:00 PM - 6:00 PM Channel 4

Conveners: Tsutomu Sekizaki (The University of Tokyo), Hideaki Nagamune (Tokushima University)

[WS4-7/ODP-008] A symbiotic relationship between intestinal lymphoid tissue resident Alcaligenes and dendritic cells

○Koji Hosomi1, Naoko Shibata1,2,3, Atsushi Shimoyama4, Tomoya Uto4, Takahiro Nagatake1, Haruko Takeyama3, Koichi Fukase4, Hiroshi Kiyono2, Jun Kunisawa1,2,3,4,5 (1National Institutes of Biomedical Innovation, Health, and Nutrition, 2The Univ. of Tokyo, 3Waseda Univ., 4Osaka Univ., 5Kobe Univ.)

We previously found unique bacterial communities inside intestinal lymphoid tissues including Peyer’s patches (PPs). Alcaligenes spp. including A. faecalis are a dominant genus among lymphoid-tissue-resident commensal bacteria (LRCs). LRCs modulate the host immune system including intestinal IgA production through persisting in dendritic cells (DCs) in the PPs without inducing an excessive inflammatory response. Here, we show Alcaligenes establish an intracellular symbiotic relationship with DCs and this symbiosis induces a unique energy metabolic shift in DCs that are associated with less induction of apoptosis. DCs showed reduced levels of mitochondrial respiration when they were co-cultured with non-symbiotic E. coli, whereas DCs carrying A. faecalis maintained high levels of mitochondrial respiration. Furthermore, E. coli induced apoptosis of DCs, while A. faecalis did not. An underlying mechanism included a different activity in the induction of intracellular nitric oxide (NO) production due to the different activity of LPS. E. coli induced high levels of NO production that inhibited mitochondrial function, in contrast, A. faecalis elicited little NO production in DCs, resulting in the low rate of apoptosis together with the increased mitochondrial respiration. These are novel symbiotic mechanisms of LRCs including A. faecalis in PPs.