1. Closing the gap on drug-induced liver injury
- Author
-
Jean Rosenbaum and Marion Maurel
- Subjects
Drug ,Liver injury ,education.field_of_study ,medicine.medical_specialty ,Hepatology ,business.industry ,media_common.quotation_subject ,Gap junction ,Inflammation ,Pharmacology ,medicine.disease ,Article ,Fulminant hepatic failure ,Mediator ,Internal medicine ,Medicine ,Connexin 32 ,medicine.symptom ,business ,education ,media_common - Abstract
Drug-induced liver injury (DILI) limits the development and utilization of numerous therapeutic compounds, and consequently presents major challenges to the pharmaceutical industry and clinical medicine1, 2. Acetaminophen (APAP) containing compounds are among the most frequently prescribed drugs, and also the most common cause of DILI3. Here we describe a pharmacological strategy that targets gap junction communication to prevent amplification of fulminant hepatic failure and APAP-induced hepatotoxicity. We report that connexin 32 (Cx32), a key hepatic gap junction protein, is an essential mediator of DILI by showing that mice deficient in Cx32 are protected against liver damage, acute inflammation, and death. We identified a small molecule inhibitor of Cx32 as a novel hepatoprotectant that achieves the same result in wildtype mice when coadministered with known hepatotoxic drugs. These findings demonstrate that gap junction inhibition is an effective therapy for limiting DILI, and suggest a novel pharmaceutical strategy to improve drug safety.
- Published
- 2012