Cells (Jun 2024)

PhosphoLipidome Alteration Induced by <i>Clostridioides difficile</i> Toxin B in Enteric Glial Cells

  • Sandra Buratta,
  • Lorena Urbanelli,
  • Roberto Maria Pellegrino,
  • Husam B. R. Alabed,
  • Raffaella Latella,
  • Giada Cerrotti,
  • Carla Emiliani,
  • Gabrio Bassotti,
  • Andrea Spaterna,
  • Pierfrancesco Marconi,
  • Katia Fettucciari

DOI
https://doi.org/10.3390/cells13131103
Journal volume & issue
Vol. 13, no. 13
p. 1103

Abstract

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Clostridioides difficile (C. difficile) is responsible for a spectrum of nosocomial/antibiotic-associated gastrointestinal diseases that are increasing in global incidence and mortality rates. The C. difficile pathogenesis is due to toxin A and B (TcdA/TcdB), both causing cytopathic and cytotoxic effects and inflammation. Recently, we demonstrated that TcdB induces cytopathic and cytotoxic (apoptosis and necrosis) effects in enteric glial cells (EGCs) in a dose/time-dependent manner and described the underlying signaling. Despite the role played by lipids in host processes activated by pathogens, to counter infection and/or induce cell death, to date no studies have investigated lipid changes induced by TcdB/TcdA. Here, we evaluated the modification of lipid composition in our in vitro model of TcdB infection. Apoptosis, cell cycle, cell viability, and lipidomic profiles were evaluated in EGCs treated for 24 h with two concentrations of TcdB (0.1 ng/mL; 10 ng/mL). In EGCs treated with the highest concentration of TcdB, not only an increased content of total lipids was observed, but also lipidome changes, allowing the separation of TcdB-treated cells and controls into different clusters. The statistical analyses also allowed us to ascertain which lipid classes and lipid molecular species determine the clusterization. Changes in lipid species containing inositol as polar head and plasmalogen phosphatidylethanolamine emerged as key indicators of altered lipid metabolism in TcdB-treated EGCs. These results not only provide a picture of the phospholipid profile changes but also give information regarding the lipid metabolism pathways altered by TcdB, and this might represent an important step for developing strategies against C. difficile infection.

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