mBio (Feb 2023)

Escherichia coli-Derived Outer Membrane Vesicles Relay Inflammatory Responses to Macrophage-Derived Exosomes

  • Risa Imamiya,
  • Akari Shinohara,
  • Daisuke Yakura,
  • Takehiro Yamaguchi,
  • Koji Ueda,
  • Ami Oguro,
  • Yukiko Minamiyama,
  • Hiroshi Ichikawa,
  • Yasuhiko Horiguchi,
  • Mayuko Osada-Oka

DOI
https://doi.org/10.1128/mbio.03051-22
Journal volume & issue
Vol. 14, no. 1

Abstract

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ABSTRACT Extracellular vesicles are considered to be an inflammatory factor in several acute and chronic inflammatory diseases. The present study shows that exosomes from macrophages (Mφ) infected with live Escherichia coli induced secretion of proinflammatory factors by uninfected Mφ. Inflammatory responses induced by exosomes derived from Mφ infected with heat-inactivated E. coli or lipopolysaccharide were significantly weaker than those elicited by outer membrane vesicles (OMVs) released from live E. coli. Proteome analysis of exosomes from Mφ infected with live or heat-inactivated E. coli revealed that E. coli proteins OmpA, GroL1, DegP, CirA, and FepA are candidate triggers of exosome-mediated inflammatory responses. OMVs from a cirA-deleted strain suppressed exosome-mediated inflammatory responses by uninfected Mφ. The C terminus of the CirA protein (residues 158 to 633), which was relayed from E. coli-derived OMV to Mφ-derived exosomes, promoted exosome-mediated inflammatory responses by uninfected Mφ. These results suggest an alternative mechanism by which extracellular vesicles from E. coli OMV-elicited Mφ transmit proinflammatory responses to uninfected Mφ. IMPORTANCE Recently, extracellular membrane vesicles (EVs) were regarded as drivers that carry cargo such as proteins, lipids, metabolites, RNA, and DNA for intracellular signaling transduction. Mammalian cells release various types of EVs, including microvesicles shed from the plasma membrane, exosomes from endosomes, apoptotic bodies, and others. EVs have been reported to mediate inflammatory signals between mammalian cells. In addition, bacteria are also known to release EVs to carry various bacterial factors. In this study, we show that bacterial EVs lead host mammalian cells to release stimulatory EVs that enhance inflammatory responses. Our results provide a novel example that bacterial EVs transduce biological signals to mammalian EVs.

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