Roadmap to DILI research in Europe. A proposal from COST action ProEuroDILINet

\ua9 2024 The AuthorsIn the current article the aims for a constructive way forward in Drug-Induced Liver Injury (DILI) are to highlight the most important priorities in research and clinical science, therefore supporting a more informed, focused, and better funded future for European DILI research. This Roadmap aims to identify key challenges, define a shared vision across all stakeholders for the opportunities to overcome these challenges and propose a high-quality research program to achieve progress on the prediction, prevention, diagnosis and management of this condition and impact on healthcare practice in the field of DILI. This will involve 1. Creation of a database encompassing optimised case report form for prospectively identified DILI cases with well-characterised controls with competing diagnoses, biological samples, and imaging data; 2. Establishing of preclinical models to improve the assessment and prediction of hepatotoxicity in humans to guide future drug safety testing; 3. Emphasis on implementation science and 4. Enhanced collaboration between drug-developers, clinicians and regulatory scientists. This proposed operational framework will advance DILI research and may bring together basic, applied, translational and clinical research in DILI

Long-term effects of high-fat or high-carbohydrate diets on glucose tolerance in mice with heterozygous carnitine palmitoyltransferase-1a deficiency

Background: Abnormal fatty acid metabolism is an important feature in the mechanisms of insulin resistance and β-cell dysfunction. Carnitine palmitoyltransferase-1a (CPT-1a, liver isoform) has a pivotal role in the regulation of mitochondrial fatty acid oxidation. We investigated the role of CPT-1a in the development of impaired glucose tolerance using a mouse model for CPT-1a deficiency when challenged by either a high-carbohydrate (HCD) or a high-fat diet (HFD) for a total duration of up to 46 weeks

High-dose clevudine impairs mitochondrial function and glucose-stimulated insulin secretion in INS-1E cells

<p>Abstract</p> <p>Background</p> <p>Clevudine is a nucleoside analog reverse transcriptase inhibitor that exhibits potent antiviral activity against hepatitis B virus (HBV) without serious side effects. However, mitochondrial myopathy has been observed in patients with chronic HBV infection taking clevudine. Moreover, the development of diabetes was recently reported in patients receiving long-term treatment with clevudine. In this study, we investigated the effects of clevudine on mitochondrial function and insulin release in a rat clonal β-cell line, INS-1E.</p> <p>Methods</p> <p>The mitochondrial DNA (mtDNA) copy number and the mRNA levels were measured by using quantitative PCR. MTT analysis, ATP/lactate measurements, and insulin assay were performed.</p> <p>Results</p> <p>Both INS-1E cells and HepG2 cells, which originated from human hepatoma, showed dose-dependent decreases in mtDNA copy number and cytochrome c oxidase-1 (Cox-1) mRNA level following culture with clevudine (10 μM-1 mM) for 4 weeks. INS-1E cells treated with clevudine had reduced total mitochondrial activities, lower cytosolic ATP contents, enhanced lactate production, and more lipid accumulation. Insulin release in response to glucose application was markedly decreased in clevudine-treated INS-1E cells, which might be a consequence of mitochondrial dysfunction.</p> <p>Conclusions</p> <p>Our data suggest that high-dose treatment with clevudine induces mitochondrial defects associated with mtDNA depletion and impairs glucose-stimulated insulin secretion in insulin-releasing cells. These findings partly explain the development of diabetes in patients receiving clevudine who might have a high susceptibility to mitochondrial toxicity.</p

Roadmap to DILI research in Europe. A proposal from COST action ProEuroDILINet

Copyright © 2024 The Authors. Published by Elsevier Ltd.. All rights reserved.In the current article the aims for a constructive way forward in Drug-Induced Liver Injury (DILI) are to highlight the most important priorities in research and clinical science, therefore supporting a more informed, focused, and better funded future for European DILI research. This Roadmap aims to identify key challenges, define a shared vision across all stakeholders for the opportunities to overcome these challenges and propose a high-quality research program to achieve progress on the prediction, prevention, diagnosis and management of this condition and impact on healthcare practice in the field of DILI. This will involve 1. Creation of a database encompassing optimised case report form for prospectively identified DILI cases with well-characterised controls with competing diagnoses, biological samples, and imaging data; 2. Establishing of preclinical models to improve the assessment and prediction of hepatotoxicity in humans to guide future drug safety testing; 3. Emphasis on implementation science and 4. Enhanced collaboration between drug-developers, clinicians and regulatory scientists. This proposed operational framework will advance DILI research and may bring together basic, applied, translational and clinical research in DILI.Peer reviewe

Mitochondrial toxicity as a mechanism of xenobiotic-induced steatosis and steatohepatitis

International audienc

Inhibition of mitochondrial fatty acid oxidation in drug-induced hepatic steatosis

International audienceMitochondrial fatty acid oxidation (mtFAO) is a key metabolic pathway required for energy production in the liver, in particular during periods of fasting. One major consequence of drug-induced impairment of mtFAO is hepatic steatosis, which is characterized by an accumulation of triglycerides and other lipid species, such as acyl-carnitines. Actually, the severity of this liver lesion is dependent on the residual mitochondrial β-oxidation flux. Indeed, a severe inhibition of mtFAO leads to microvesicular steatosis, hypoglycemia and liver failure. In contrast, moderate impairment of mtFAO can cause macrovacuolar steatosis, which is a benign lesion in the short term. Because some drugs can induce both microvesicular and macrovacuolar steatosis, it is surmised that severe mitochondrial dysfunction could be favored in some patients by non-genetic factors (e.g., high doses and polymedication), or genetic predispositions involving genes that encode proteins playing directly or indirectly a role in the mtFAO pathway. Example of drugs inducing steatosis include acetaminophen (APAP), amiodarone, ibuprofen, linezolid, nucleoside reverse transcriptase inhibitors, such as stavudine and didanosine, perhexiline, tamoxifen, tetracyclines, troglitazone and valproic acid. Because several previous articles reviewed in depth the mechanism(s) whereby most of these drugs are able to inhibit mtFAO and induce steatosis, the present review is rather focused on APAP, linezolid and troglitazone. These steatogenic drugs are indeed rarely discussed in the literature as regards their ability to impair mtFAO. © 2019 The Third Affiliated Hospital of Sun Yat-sen Universit

Hepatotoxicity in NAFLD: acetaminophen and other xenobiotics

International audienceMeeting Abstract S30-0