药物性脂肪性肝病（DIFLD）的个体发生：从关键起始事件到疾病表型

Ontogeny of drug-induced fatty liver disease (DIFLD): from key initiating events to disease phenotypes.

作者信息

López-Pascual Ernesto, Moreno-Torres Marta, Moro Erika, Rapisarda Anna, Ortega-Vallbona Rita, Serrano-Candelas Eva, Gozalbes Rafael, Jover Ramiro, Castell José V

机构信息

Department of Biochemistry and Molecular Biology. Faculty of Medicine, University of Valencia, Valencia, Spain.

Unit for Experimental Hepatology, Health Research Institute La Fe (IISLAFE), Valencia, Spain.

出版信息

Arch Toxicol. 2025 Sep 16. doi: 10.1007/s00204-025-04178-x.

DOI:10.1007/s00204-025-04178-x

PMID:40958018

Abstract

We conducted an expert review of clinical case reports on drug-induced fatty liver disease (DIFLD) to classify drugs according to distinct clinical phenotypes. Seven clusters were identified based on clinical, biochemical, and histological features reflecting drug toxic mechanisms: Cluster 0 (Control): Drugs with no known steatotic effects or clinical evidence of DIFLD. Cluster 1: Drugs with mild pro-steatotic effects, exacerbating existing metabolic steatosis without significant liver enzyme elevation. Cluster 2: Compounds causing moderate steatosis with mild hepatocellular damage, occasional enzyme increases, and delayed onset. Cluster 3: Agents causing severe mitochondrial dysfunction, ATP depletion, and lactic acidosis, initially without inflammation. Cluster 4: Drugs inducing inflammatory steatohepatitis with moderate elevations of liver enzymes (ALT, AST, ALP 90-700 U/L) but preserved liver function. Cluster 5: Drugs causing severe steatohepatitis with marked enzyme elevation (ALT, AST > 700 U/L) indicating significant liver injury and inflammation. Cluster 6: Compounds causing steatohepatitis with additional cholestasis and elevated bilirubin (> 11 mg/dL). Clusters 1 and 2 primarily impair β-oxidation and mitochondrial respiration, linked to high lipophilicity and typically lower daily doses. Cluster 3 involves mitochondrial DNA depletion and impaired lipid export. Clusters 4 and 5 combine mitochondrial and nuclear receptor disruption, often linked to higher daily doses. Cluster 6 combines steatosis-promoting mechanisms with bile acid transport disruption. This classification improves understanding of DIFLD phenotypes by linking clinical manifestations with drug physicochemical properties and toxicological mechanisms, aiding diagnosis and risk assessment of drug-induced steatosis.

摘要

我们对药物性脂肪性肝病（DIFLD）的临床病例报告进行了专家评审，以便根据不同的临床表型对药物进行分类。基于反映药物毒性机制的临床、生化和组织学特征，确定了七个类别：类别0（对照）：无已知脂肪变性作用或DIFLD临床证据的药物。类别1：具有轻度促脂肪变性作用的药物，可加重现有的代谢性脂肪变性，但肝酶无明显升高。类别2：引起中度脂肪变性并伴有轻度肝细胞损伤、偶尔酶升高且起病延迟的化合物。类别3：导致严重线粒体功能障碍、ATP耗竭和乳酸性酸中毒的药物，最初无炎症。类别4：诱导炎性脂肪性肝炎且肝酶（ALT、AST、ALP 90 - 700 U/L）中度升高但肝功能保留的药物。类别5：导致严重脂肪性肝炎且酶显著升高（ALT、AST > 700 U/L），表明有明显肝损伤和炎症的药物。类别6：引起脂肪性肝炎并伴有额外胆汁淤积和胆红素升高（> 11 mg/dL）的化合物。类别1和2主要损害β-氧化和线粒体呼吸，与高亲脂性和通常较低的日剂量有关。类别3涉及线粒体DNA耗竭和脂质输出受损。类别4和5结合了线粒体和核受体破坏，通常与较高的日剂量有关。类别6将促脂肪变性机制与胆汁酸转运破坏结合在一起。这种分类通过将临床表现与药物理化性质和毒理学机制联系起来，提高了对DIFLD表型的理解，有助于药物性脂肪变性的诊断和风险评估。

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药物性脂肪性肝病（DIFLD）的个体发生：从关键起始事件到疾病表型

Ontogeny of drug-induced fatty liver disease (DIFLD): from key initiating events to disease phenotypes.

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