ROS–Jak2/Stat3 signaling drives HBV-induced liver inflammation
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ROS–Jak2/Stat3 signaling drives HBV-induced liver inflammation

17/07/2026 Compuscript Ltd

Chronic hepatitis B virus (HBV) infection remains a major cause of global liver morbidity, leading to progressive necroinflammation that often culminates in cirrhosis and hepatocellular carcinoma. Despite the clinical significance of this chronic inflammatory state, the precise molecular mechanisms that initiate and sustain HBV-induced hepatic damage remain poorly understood.

In a recent Genes & Diseases study, researchers from Chongqing Medical University investigated the mechanisms underlying HBV-induced liver inflammation and identified a reactive oxygen species (ROS)-dependent signaling cascade that activates the Jak2/Stat3 pathway, thereby triggering hepatic inflammatory responses.

Transcriptomic analyses of HBV transgenic mice and liver samples from patients with chronic HBV infection revealed that early hepatic inflammation is characterized by pronounced suppression of mitochondrial oxidative phosphorylation (OXPHOS), particularly genes associated with mitochondrial respiratory complexes I and III, leading to mitochondrial respiratory dysfunction. Functional studies using HBV-replicating hepatocyte cell lines demonstrated that persistent viral replication progressively impaired mitochondrial respiration, resulting in elevated intracellular ROS production. This metabolic disturbance drives excessive accumulation of ROS within the hepatocytes. Similar mitochondrial dysfunction and oxidative stress were observed in HBV replication mouse models during the early stages of liver inflammation, indicating that mitochondrial dysfunction and the resulting ROS accumulation represent initiating events in HBV-associated inflammatory responses.

Mechanistic investigations demonstrated that ROS accumulation activated the antioxidant regulator Nrf2, which subsequently enhanced the production of the pro-inflammatory cytokines IL-6 and IL-8. These cytokines stimulated phosphorylation of Jak2 and Stat3 without altering total protein expression, leading to transcriptional activation of multiple inflammatory genes, including Saa1, S100a9, Icam1, and Socs3, involved in immune cell recruitment and hepatic inflammation. Pharmacological manipulation of ROS levels further confirmed this mechanism, as ROS scavenging with Mito-TEMPO or suppression of HBV replication reduced Nrf2 activation, cytokine production, Jak2/Stat3 signaling, and inflammatory gene expression, whereas ROS induction produced the opposite effects.

This mechanism was further validated in vivo using a pAAV/HBV1.2 mouse model with persistent HBV replication, where increased oxidative stress coincided with elevated Nrf2 expression, enhanced IL-6 and IL-8 production, activation of Jak2/Stat3 signaling, and infiltration of inflammatory cells within the liver. Treatment with the antioxidant N-acetylcysteine (NAC) markedly reduced hepatic ROS accumulation, suppressed activation of the Jak2/Stat3 pathway, decreased inflammatory cytokine expression, and alleviated liver inflammation, demonstrating that oxidative stress is a critical upstream regulator of HBV-induced inflammatory responses.

Collectively, this study establishes mitochondrial dysfunction-induced ROS accumulation as a pivotal trigger of HBV-associated hepatic inflammation through activation of the Nrf2–IL-6/IL-8–Jak2/Stat3 signaling axis. By linking viral replication to oxidative stress and inflammatory signaling, this study provides mechanistic insights into the early pathogenesis of chronic hepatitis B and identifies ROS-dependent Jak2/Stat3 activation as a promising therapeutic target for preventing inflammation-driven liver disease progression.

Reference
Title of the original paper: Activation of the Jak2/Stat3 pathway by ROS-dependent signaling cascades initiates hepatitis B virus-induced hepatic inflammatory responses
Journal: Genes & Diseases
Genes & Diseases is a journal for molecular and translational medicine. The journal primarily focuses on publishing investigations on the molecular bases and experimental therapeutics of human diseases. Publication formats include full length research article, review article, short communication, correspondence, perspectives, commentary, views on news, and research watch.
DOI: https://doi.org/10.1016/j.gendis.2025.101857

Funding Information:
Chongqing Medical Scientific Research Project (Joint Project of Chongqing Health Commission and Science and Technology Bureau) (China) (No. 2024MSXM024)
Remarkable Innovation–Clinical Research Project, the Second Affiliated Hospital of Chongqing Medical University (2022)
The First batch of key Disciplines on Public Health in Chongqing, Health Commission of Chongqing, China

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Genes & Diseases publishes rigorously peer-reviewed and high quality original articles and authoritative reviews that focus on the molecular bases of human diseases. Emphasis is placed on hypothesis-driven, mechanistic studies relevant to pathogenesis and/or experimental therapeutics of human diseases. The journal has worldwide authorship, and a broad scope in basic and translational biomedical research of molecular biology, molecular genetics, and cell biology, including but not limited to cell proliferation and apoptosis, signal transduction, stem cell biology, developmental biology, gene regulation and epigenetics, cancer biology, immunity and infection, neuroscience, disease-specific animal models, gene and cell-based therapies, and regenerative medicine.
Scopus CiteScore: 10.4 | Impact Factor: 14.6

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More information: https://www.keaipublishing.com/en/journals/genes-and-diseases/
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Print ISSN: 2352-4820
eISSN: 2352-3042
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Archivos adjuntos
  • Mitochondrial OXPHOS dysfunction and excess ROS accumulation in HBV-replication hepatoma cell lines
  • Hepatic ROS levels and Jak2/Stat3 activity were increased simultaneously at the early stage of liver inflammation in a persistent HBV-replication mouse model
  • Schematic overview of proposed mechanisms
17/07/2026 Compuscript Ltd
Regions: Europe, Ireland, Asia, China
Keywords: Science, Life Sciences, Health, Medical

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