Background Acute-on-chronic liver failure is a fatal syndrome involving sudden hepatic deterioration in patients with chronic liver disease, resulting in high short-term mortality. The intrahepatic molecular mechanisms that drive disease progression are poorly understood, partly due to limited access to human liver tissues. Method Transcriptomic profiling of liver tissues from patients with hepatitis B virus-related acute-on-chronic liver failure and a corresponding murine model was performed. Comparative analyses were conducted across disease stages to delineate the dynamic immune and metabolic trajectories. Result The analysis uncovered a conserved immune-metabolic dysregulation during disease progression. In both patients and mice, immune activation-characterized by monocyte and macrophage infiltration and altered cytokine signaling-coincided with progressive metabolic failure, including the suppression of mitochondrial functions. The murine model further demonstrated a transition from an early stage of hyperinflammation to a later stage of immune exhaustion. Moreover, several monocyte and macrophage-associated genes were identified as conserved markers that correlate with disease severity, highlighting their potential as biomarkers or therapeutic targets. Conclusion This study defines a conserved immune-metabolic interplay during the progression of hepatitis B virus-related acute-on-chronic liver failure and validates the murine model’s accuracy for studying the disease’s terminal stage. The identified dysregulation of immune cells and metabolic pathways presents actionable targets for developing stage-specific therapies intended to disrupt the disease’s vicious immune-metabolic cycle.
Chen et al. (Tue,) studied this question.
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