Paech 2017 Arch Toxicol

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Paech F, Messner S, Spickermann J, Wind M, Schmitt-Hoffmann AH, Witschi AT, Howell BA, Church RJ, Woodhead J, Engelhardt M, Krähenbühl S, Maurer M (2017) Mechanisms of hepatotoxicity associated with the monocyclic β-lactam antibiotic BAL30072. Arch Toxicol 91:3647-62.

» PMID: 28536862

Paech F, Messner S, Spickermann J, Wind M, Schmitt-Hoffmann AH, Witschi AT, Howell BA, Church RJ, Woodhead J, Engelhardt M, Kraehenbuehl S, Maurer M (2017) Arch Toxicol

Abstract: BAL30072 is a new monocyclic β-lactam antibiotic under development which provides a therapeutic option for the treatment of severe infections caused by multi-drug-resistant Gram-negative bacteria. Despite the absence of liver toxicity in preclinical studies in rats and marmosets and in single dose clinical studies in humans, increased transaminase activities were observed in healthy subjects in multiple-dose clinical studies. We, therefore, initiated a comprehensive program to find out the mechanisms leading to hepatocellular injury using HepG2 cells (human hepatocellular carcinoma cell line), HepaRG cells (inducible hepatocytes derived from a human hepatic progenitor cell line), and human liver microtissue preparations. Our investigations demonstrated a concentration- and time-dependent reduction of the ATP content of BAL30072-treated HepG2 cells and liver microtissues. BAL30072 impaired oxygen consumption by HepG2 cells at clinically relevant concentrations, inhibited complexes II and III of the mitochondrial electron transport chain, increased the production of reactive oxygen species (ROS), and reduced the mitochondrial membrane potential. Furthermore, BAL 30072 impaired mitochondrial fatty acid metabolism, inhibited glycolysis, and was associated with hepatocyte apoptosis. Co-administration of N-acetyl-L-cysteine partially protected hepatocytes from BAL30072-mediated toxicity, underscoring the role of oxidative damage in the observed hepatocellular toxicity. In conclusion, BAL30072 is toxic for liver mitochondria and inhibits glycolysis at clinically relevant concentrations. Impaired hepatic mitochondrial function and inhibition of glycolysis can explain liver injury observed in human subjects receiving long-term treatment with this compound.

Keywords: Glycolysis, Hepatotoxicity, Mitochondrial toxicity, Monocyclic β-lactams, Reactive oxygen species (ROS), HepG2 Bioblast editor: Kandolf G O2k-Network Lab: CH Basel Kraehenbuehl S


Labels: MiParea: Respiration, Pharmacology;toxicology 


Organism: Human  Tissue;cell: Liver, Other cell lines  Preparation: Permeabilized cells 


Coupling state: LEAK, OXPHOS, ET  Pathway: N, S, DQ, CIV, ROX  HRR: Oxygraph-2k 

2017-08