1.Selection strategies and future perspectives for animal models of gastroesophageal varices
Tianfu LYU ; Qiong NAN ; Ying ZHAO ; Xiaohua WANG ; Ninghui MU ; Bingtuan LU
Journal of Clinical Hepatology 2026;42(5):1185-1191
Gastroesophageal varices (GOV) bleeding is a severe complication of portal hypertension with a high mortality rate. Animal models are indispensable tools for investigating its pathogenesis and developing novel therapeutic strategies. This article systematically reviews the methods for establishing various GOV models, with a particular focus on their efficacy in simulating the key pathological processes such as an increase in hepatic venous pressure gradient and the risk of bleeding, and it also proposes targeted strategies for model selection. Finally, this article discusses the application prospects of emerging techniques in the era of precision medicine, such as organoids and gene editing, in order to provide model selection and a theoretical reference for exploring the mechanism and clinical translation of GOV.
2.Celastrol-loaded ginsenoside Rg3 liposomes boost immunotherapy by remodeling obesity-related immunosuppressive tumor microenvironment in melanoma.
Hongyan ZHANG ; Jingyi HUANG ; Yujie LI ; Wanyu JIN ; Jiale WEI ; Ninghui MA ; Limei SHEN ; Mancang GU ; Chaofeng MU ; Donghang XU ; Yang XIONG
Acta Pharmaceutica Sinica B 2025;15(5):2687-2702
Obesity usually exacerbates the immunosuppressive tumor microenvironment (ITME), hindering CD8+ T cell infiltration and function, which further represents a significant barrier to the efficacy of immunotherapy. Herein, a multifunctional liposomal system (CR-Lip) for encapsulating celastrol (CEL) was utilized to remodel obesity-related ITME and improve cancer immunotherapy, wherein Ginsenoside Rg3 (Rg3) was detected interspersed in the phospholipid bilayer and its glycosyl exposed on the surface of the liposome. CR-Lip had a relatively uniform size (116.5 nm), facilitating favorable tumor tissue accumulation through the interaction between Rg3 and glucose transporter 1 overexpressed in obese tumor cells. Upon reaching the tumor region, CR-Lip was found to induce the immunogenic cell death (ICD) of HFD tumor cells. Notably, the level of PHD3 in HFD tumor cells was effectively boosted by CR-Lip to effectively block metabolic reprogramming and increase the availability of major free fatty acids fuel sources. In vivo, experiments studies revealed that the easy-obtained nano platform stimulated enhanced the production of various cytokines in tumor tissues, DC maturation, CD8+ T-cell infiltration, and synergistic anticancer therapeutic potency with aPD-1 (tumor inhibition rate = 82.1%) towards obesity-related melanoma. Consequently, this study presented an efficacious approach to tumor immunotherapy in obese mice by encompassing tumor eradication, inducing ICD, and reprogramming metabolism. Furthermore, it offered a unique insight into a valuable attempt at the immunotherapy of obesity-associated related tumors.

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