Lipoprotein Z, A novel hepatotoxic lipoprotein, predicts outcome in alcoholic hepatitis.

Background & aims Lipoprotein Z (LP-Z) is an abnormal free cholesterol (FC)-enriched low density lipoprotein (LDL)-like particle discovered from patients with cholestatic liver disease. This study aims to define the diagnostic value of LP-Z in alcoholic hepatitis (AH) and interrogate the biology behind its formation. Approach & results We measured serum levels of LP-Z using nuclear magnetic resonance spectroscopy, a well-established clinical assay. Serum levels of LP-Z were significantly elevated in four AH cohorts compared to control groups, including heavy drinkers and cirrhosis. We defined a Z-index, calculated by the ratio of LP-Z to total apolipoprotein B-containing lipoproteins, representing the degree of deviation from normal very low density lipoprotein (VLDL) metabolism. A high Z-index was associated with 90-day mortality independent from the Model for End-Stage Liver Disease and provided added prognosticative value. Both a Z-index ≤0.6 and a decline of Z-index by ≥ 0.1 in two weeks predicted 90-day survival. RNAseq analyses of liver tissues demonstrated an inverse association in the expression of enzymes responsible for the extrahepatic conversion of VLDL to LDL and AH disease severity, which was further confirmed by the measurement of serum enzyme activity. To evaluate whether the FC in LP-Z could contribute to the pathogenesis of AH, we found significantly altered FC levels in liver explant of AH patients. Furthermore, FC in reconstituted LP-Z particles caused direct toxicity to human hepatocytes in a concentration-dependent manner, supporting a pathogenic role of FC in LP-Z. Conclusions Impaired lipoprotein metabolism in AH leads to the accumulation of LP-Z in the circulation, which is hepatotoxic from excessive FC. A Z-index ≤ 0.6 predicts 90-day survival independent from conventional biomarkers for disease prognostication.