Hepatology Communications (Oct 2021)

Inhibition of Drug‐Induced Liver Injury in Mice Using a Positively Charged Peptide That Binds DNA

  • Pedro E. Marques,
  • Sofie Vandendriessche,
  • Thiago H.C. deOliveira,
  • Helena Crijns,
  • Mateus E. Lopes,
  • Marfa Blanter,
  • Sara Schuermans,
  • Karen Yu,
  • Fariba Poosti,
  • Vincent Vanheule,
  • Rik Janssens,
  • Daiane Boff,
  • Andreas J. Kungl,
  • Gustavo B. Menezes,
  • Mauro M. Teixeira,
  • Paul Proost

DOI
https://doi.org/10.1002/hep4.1759
Journal volume & issue
Vol. 5, no. 10
pp. 1737 – 1754

Abstract

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Hepatic cell death occurs in response to diverse stimuli such as chemical and physical damage. The exposure of intracellular contents such as DNA during necrosis induces a severe inflammatory response that has yet to be fully explored therapeutically. Here, we sought means to neutralize the ability of extracellular DNA to induce deleterious tissue inflammation when drug‐induced liver injury had already ensued. DNA exposure and inflammation were investigated in vivo in drug‐induced liver injury using intravital microscopy. The necrotic DNA debris was studied in murine livers in vivo and in DNA debris models in vitro by using a positively charged chemokine‐derived peptide (MIG30; CXCL9[74‐103]). Acetaminophen‐induced liver necrosis was associated with massive DNA accumulation, production of CXC chemokines, and neutrophil activation inside the injured tissue. The MIG30 peptide bound the healthy liver vasculature and, to a much greater extent, to DNA‐rich necrotic tissue. Moreover, MIG30 bound extracellular DNA directly in vivo in a charge‐dependent manner and independently of glycosaminoglycans and chemokines. Post‐treatment of mice with MIG30 reduced mortality, liver damage, and inflammation significantly. These effects were not observed with a control peptide that does not bind DNA. Mechanistically, MIG30 inhibited the interaction between DNA and histones, and promoted the dissociation of histones from necrotic debris. MIG30 also inhibited the pro‐inflammatory effect of CpG DNA, as measured by a reduction in CXCL8 production, indicating that MIG30 disturbs the ability of DNA to induce hepatic inflammation. Conclusion: The use of DNA‐binding peptides reduces necrotic liver injury and inflammation, even at late timepoints.