Abstract
Many drugs have the potential to cause drug-induced liver injury (DILI); however, underlying mechanisms are diverse. The concept of adverse outcome pathways (AOPs) has become instrumental for risk assessment of drug class effects. We report AOPs specific for immune-mediated and drug hypersensitivity/allergic hepatitis by considering genomic, histo- and clinical pathology data of mice and dogs treated with diclofenac. The findings are relevant for other NSAIDs and drugs undergoing iminoquinone and quinone reactive metabolite formation. We define reactive metabolites catalyzed by CYP monooxygenase and myeloperoxidases of neutrophils and Kupffer cells as well as acyl glucuronides produced by uridine diphosphoglucuronosyl transferase as molecular initiating events (MIE). The reactive metabolites bind to proteins and act as neo-antigen and involve antigen-presenting cells to elicit B- and T-cell responses. Given the diverse immune systems between mice and dogs, six different key events (KEs) at the cellular and up to four KEs at the organ level are defined with mechanistic plausibility for the onset and progression of liver inflammation. With mice, cellular stress response, interferon gamma-, adipocytokine- and chemokine signaling provided a rationale for the AOP of immune-mediated hepatitis. With dogs, an erroneous programming of the innate and adaptive immune response resulted in mast cell activation; their infiltration into liver parenchyma and the shift to M2-polarized Kupffer cells signify allergic hepatitis and the occurrence of granulomas of the liver. Taken together, diclofenac induces divergent immune responses among two important preclinical animal species, and the injury pattern seen among clinical cases confirms the relevance of the developed AOP for immune-mediated hepatitis.
Highlights
The liver is a primary target organ of toxicity, and druginduced liver injury (DILI) is a major concern that results in box warnings and even withdrawals of drugs from the market
We report an adverse outcome pathways (AOPs) for immune-mediated and allergic hepatitis based on comprehensive data obtained from mouse and dog diclofenac repeated-dose studies and literature findings with clinical relevance
The subsequently performed computational analysis enabled the development of an AOP of immune-mediated hepatitis, and the concept is based on mechanistic plausibility
Summary
The liver is a primary target organ of toxicity, and druginduced liver injury (DILI) is a major concern that results in box warnings and even withdrawals of drugs from the market. The AOP knowledgebase (AOP-KB, https://aopkb.oecd.org/) facilitates the search for mutual KEs and key event relationship (KER) components (Knapen et al 2018; Pollesch et al 2019), and to reflect the more complex processes in a toxicological insult AOP network analysis has been advocated Such networks can be analyzed by linking the shared KE and KER components as a modular unit of the AOP (Knapen et al 2018; Pollesch et al 2019). We report an AOP for immune-mediated and allergic hepatitis based on comprehensive data obtained from mouse and dog diclofenac repeated-dose studies and literature findings with clinical relevance. This non-steroidal anti-inflammatory drug (NSAID) exerts anti-inflammatory, analgesic and anti-pyretic effects through various mechanisms; its use can lead to adverse drug reactions including DILI (Banks et al 1995). An AOP for hepatitis based on experimental and computational biology studies is presented
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