Molecular Systems Biology (Mar 2022)

An engineered bacterial therapeutic lowers urinary oxalate in preclinical models and in silico simulations of enteric hyperoxaluria

  • David Lubkowicz,
  • Nicholas G Horvath,
  • Michael J James,
  • Pasquale Cantarella,
  • Lauren Renaud,
  • Christopher G Bergeron,
  • Ron B Shmueli,
  • Cami Anderson,
  • Jian‐Rong Gao,
  • Caroline B Kurtz,
  • Mylene Perreault,
  • Mark R Charbonneau,
  • Vincent M Isabella,
  • David L Hava

DOI
https://doi.org/10.15252/msb.202110539
Journal volume & issue
Vol. 18, no. 3
pp. n/a – n/a

Abstract

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Abstract Enteric hyperoxaluria (EH) is a metabolic disease caused by excessive absorption of dietary oxalate leading to the formation of chronic kidney stones and kidney failure. There are no approved pharmaceutical treatments for EH. SYNB8802 is an engineered bacterial therapeutic designed to consume oxalate in the gut and lower urinary oxalate as a potential treatment for EH. Oral administration of SYNB8802 leads to significantly decreased urinary oxalate excretion in healthy mice and non‐human primates, demonstrating the strain's ability to consume oxalate in vivo. A mathematical modeling framework was constructed that combines in vitro and in vivo preclinical data to predict the effects of SYNB8802 administration on urinary oxalate excretion in humans. Simulations of SYNB8802 administration predict a clinically meaningful lowering of urinary oxalate excretion in healthy volunteers and EH patients. Together, these findings suggest that SYNB8802 is a promising treatment for EH.

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