Proteomics and phosphoproteomics analysis of acute pancreatitis alleviated by forsythoside B

Acute pancreatitis (AP) is a common acute abdominal condition in clinical practice, associated with high morbidity and mortality rates. Forsythia constitutes a component of traditional Chinese medicinal decoctions used for clinical AP treatment; however, the efficacy of its active monomer in treating AP has yet to be completely substantiated. Here, we engineered an AP cell and mouse model by administering a combination of caerulein and LPS. In vitro experiments utilizing AR42J cells demonstrated that forsythoside B (FST·B) was the most effective monomer in mitigating cellular inflammation. Subsequently, a comprehensive evaluation of FST·B concentrations and efficacy was performed in animal models. Next Mass spectrometry analysis of pancreatic from AP mice treated with 50 mg/kg FST·B was conducted to elucidate its primary regulatory molecular signaling and key targets. FST·B effectively mitigated pathological damage in mice with acute pancreatitis, leading to a reduction in the expression of inflammatory cytokines in both pancreatic tissue and serum. Proteomics and phosphoproteomic profiles revealed that FST·B significantly enhanced the level of oxidative phosphorylation and spliceosome pathway in the AP mice. This research provides initial evidence of the regulatory molecular signals and targets of FST·B in AP, laying a potential foundation for its clinical use in treating AP.

Significance

Acute pancreatitis (AP) is a common acute abdominal condition in clinical practice, associated with high morbidity and mortality rates, and the global incidence of AP has increased by approximately 25 % over the past 15 years. Despite the complexity of AP's causes and the high susceptibility of proteins to degradation during lesions, systems biology studies, such as proteomics, have been limited in investigating the molecular mechanisms involved in its pharmacological treatment. Forsythoside B, a phenylethanol glycoside isolated from the air-dried fruit of forsythia, is a traditional oriental anti-inflammatory drug commonly used in clinical practice. We demonstrated in the AP mouse model that forsythoside B can alleviate pancreatic inflammatory damage in vivo. To elucidate the molecular mechanisms underlying the anti-inflammatory effect of forsythoside B, a comprehensive proteomic and phosphoproteomic analysis was conducted on AP mice models prior to and subsequent to forsythoside B intervention. Finally, 1640 significantly differentially expressed proteins, 1448 significantly differentially expressed phosphoproteins corresponding to 2496 significantly differentially expressed phosphosites were identified. Functional analysis revealed that forsythoside B significantly enhanced the level of oxidative phosphorylation in the AP mice in proteomic profiles, and the spliceosome pathway at the phosphorylation level was significantly affected by forsythoside B. This research provides initial evidence of the regulatory molecular signals and targets of forsythoside B in AP, laying a potential foundation for its clinical use in treating AP.