TY - JOUR
T1 - Single mutation makes Escherichia coli an insect mutualist
AU - Koga, Ryuichi
AU - Moriyama, Minoru
AU - Onodera-Tanifuji, Naoko
AU - Ishii, Yoshiko
AU - Takai, Hiroki
AU - Mizutani, Masaki
AU - Oguchi, Kohei
AU - Okura, Reiko
AU - Suzuki, Shingo
AU - Gotoh, Yasuhiro
AU - Hayashi, Tetsuya
AU - Seki, Masahide
AU - Suzuki, Yutaka
AU - Nishide, Yudai
AU - Hosokawa, Takahiro
AU - Wakamoto, Yuichi
AU - Furusawa, Chikara
AU - Fukatsu, Takema
N1 - Publisher Copyright:
© 2022, The Author(s).
PY - 2022/8
Y1 - 2022/8
N2 - Microorganisms often live in symbiosis with their hosts, and some are considered mutualists, where all species involved benefit from the interaction. How free-living microorganisms have evolved to become mutualists is unclear. Here we report an experimental system in which non-symbiotic Escherichia coli evolves into an insect mutualist. The stinkbug Plautia stali is typically associated with its essential gut symbiont, Pantoea sp., which colonizes a specialized symbiotic organ. When sterilized newborn nymphs were infected with E. coli rather than Pantoea sp., only a few insects survived, in which E. coli exhibited specific localization to the symbiotic organ and vertical transmission to the offspring. Through transgenerational maintenance with P. stali, several hypermutating E. coli lines independently evolved to support the host’s high adult emergence and improved body colour; these were called ‘mutualistic’ E. coli. These mutants exhibited slower bacterial growth, smaller size, loss of flagellar motility and lack of an extracellular matrix. Transcriptomic and genomic analyses of ‘mutualistic’ E. coli lines revealed independent mutations that disrupted the carbon catabolite repression global transcriptional regulator system. Each mutation reproduced the mutualistic phenotypes when introduced into wild-type E. coli, confirming that single carbon catabolite repression mutations can make E. coli an insect mutualist. These findings provide an experimental system for future work on host–microbe symbioses and may explain why microbial mutualisms are omnipresent in nature.
AB - Microorganisms often live in symbiosis with their hosts, and some are considered mutualists, where all species involved benefit from the interaction. How free-living microorganisms have evolved to become mutualists is unclear. Here we report an experimental system in which non-symbiotic Escherichia coli evolves into an insect mutualist. The stinkbug Plautia stali is typically associated with its essential gut symbiont, Pantoea sp., which colonizes a specialized symbiotic organ. When sterilized newborn nymphs were infected with E. coli rather than Pantoea sp., only a few insects survived, in which E. coli exhibited specific localization to the symbiotic organ and vertical transmission to the offspring. Through transgenerational maintenance with P. stali, several hypermutating E. coli lines independently evolved to support the host’s high adult emergence and improved body colour; these were called ‘mutualistic’ E. coli. These mutants exhibited slower bacterial growth, smaller size, loss of flagellar motility and lack of an extracellular matrix. Transcriptomic and genomic analyses of ‘mutualistic’ E. coli lines revealed independent mutations that disrupted the carbon catabolite repression global transcriptional regulator system. Each mutation reproduced the mutualistic phenotypes when introduced into wild-type E. coli, confirming that single carbon catabolite repression mutations can make E. coli an insect mutualist. These findings provide an experimental system for future work on host–microbe symbioses and may explain why microbial mutualisms are omnipresent in nature.
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U2 - 10.1038/s41564-022-01179-9
DO - 10.1038/s41564-022-01179-9
M3 - Article
C2 - 35927448
AN - SCOPUS:85135409306
SN - 2058-5276
VL - 7
SP - 1141
EP - 1150
JO - Nature Microbiology
JF - Nature Microbiology
IS - 8
ER -