Host-derived CEACAM-laden vesicles engage enterotoxigenic E. coli for elimination and toxin neutralization

  1. Alaullah Sheikh
  2. Debayan Ganguli
  3. Tim J. Vickers
  4. Bernhard Singer
  5. Jennifer Foulke-Abel
  6. Marjahan Akhtar
  7. Nazia Khatoon
  8. Bipul Setu
  9. Supratim Basu
  10. Clayton Harro
  11. Nicole Maier
  12. Wandy L. Beatty
  13. Subhra Chakraborty
  14. Tafiqur R. Bhuiyan
  15. Firdausi Qadri
  16. Mark Donowitz
  17. James M. Fleckenstein
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Abstract

Enterotoxigenic Escherichia coli (ETEC) cause hundreds of millions of diarrheal illnesses annually ranging from mildly symptomatic cases to severe, life-threatening cholera-like diarrhea. Although ETEC are associated with long-term sequelae including malnutrition, the acute diarrheal illness is largely self-limited. Recent studies indicate that in addition to causing diarrhea, the ETEC heat-labile toxin (LT) modulates the expression of many genes in intestinal epithelia, including carcinoembryonic cell adhesion molecules (CEACAMs) which ETEC exploit as receptors, enabling toxin delivery. Here however, we demonstrate that LT also enhances the expression of CEACAMs on extracellular vesicles (EV) shed by intestinal epithelia and that CEACAM-laden EV increase in abundance during human infections, mitigate pathogen-host interactions, scavenge free ETEC toxins, and accelerate ETEC clearance from the gastrointestinal tract. Collectively, these findings indicate that CEACAMs play a multifaceted role in ETEC pathogen-host interactions, transiently favoring the pathogen, but ultimately contributing to innate responses that extinguish these common infections.

Significance statement

Enterotoxigenic E. coli, characterized by the production of heat-labile (LT) and heat-stable (ST) toxins, are a very common cause of diarrhea in low-income regions responsible for hundreds of millions of infections each year, and the major cause of diarrhea in travelers to endemic areas. Although these infections may be severe and cholera-like, they are typically self-limited. These studies demonstrate that extracellular vesicles produced by host intestinal cells can capture the bacteria and its secreted toxins at a distance from the cell surface, potentially acting as molecular decoys to neutralize the enterotoxins and extinguish the infection.

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  1. Version published to 10.1101/2024.07.24.604983v1 on bioRxiv