Panyisha Wu scite author profile

Immunotherapy with checkpoint inhibitors for liver cancer, while active in many clinical trials worldwide, may have uncertain outcomes due to the unique immunotolerant microenvironment of the liver. In previous experiments, we unexpectedly identified a robust liver tumor‐preventive effect of a synthetic double‐stranded RNA, polyinosinic‐polycytidylic acid (polyIC), in mice. Herein we further demonstrate that polyIC given at the precancer stage effectively prevented liver tumorigenesis by activating natural killer cells, macrophages, and some T‐cell subsets; no inhibitory effect was observed on tumor progression if injected after tumor initiation. Nevertheless, polyIC administration potently induced programmed death ligand 1 (PD‐L1) expression in liver sinusoid endothelial cells, which prompted us to test a combined treatment of polyIC and PD‐L1 antibody (Ab). Although injecting PD‐L1 Ab alone did not show any therapeutic effect, injection of polyIC sensitized the hepatic response to PD‐L1 blockade. Combination of polyIC and PD‐L1 Ab resulted in sustained accumulation of active cluster of differentiation 8 cytotoxic T cells and robust liver tumor suppression and conferred a survival advantage in mice. These preclinical data in animal models suggest that, despite the low efficacy of PD‐L1/PD‐1 blockade alone, careful design of mechanism‐based combinatorial immunotherapeutic protocols may shift the paradigm in liver cancer treatment by coordinating maximal activation of multiple innate and adaptive immune functions. Conclusion: We provide proof of principle for the development of an efficient prevention strategy of liver tumorigenesis and a powerful combination immunotherapy for primary liver cancer.

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Enhancing the therapeutic efficacy of programmed death ligand 1 antibody for metastasized liver cancer by overcoming hepatic immunotolerance in mice

Bing

Yang

et al. 2022

Hepatology

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Background and Aims: Immunotherapy with programmed cell death 1 (PD-1)/programmed death ligand 1 (PD-L1) blockade has shown low response rates in liver cancer patients, with the underlying mechanisms unclear. To decipher a specific impact of the liver microenvironment, we compared the effects of anti-PD-L1 antibody (αPD-L1) blockade on the same tumor grown s.c. or in the liver. Approach and Results: We generated s.c. tumors in mice by inoculating MC38 colorectal cancer (CRC) cells under the skin and metastatic liver tumors by portal vein or splenic injection of CRC cells. Tumor-bearing mice were treated by i.p. injection of αPD-L1, polyinosinic:polycytidylic acid (poly[I:C]), or both. αPD-L1 monotherapy significantly suppressed s.c. tumor growth, but showed no effect on metastatic liver tumors. However, the combination of αPD-L1 with poly(I:C), an innate immunity-stimulating reagent, robustly inhibited tumor progression in liver. The combination therapy effectively down-regulated myeloid-derived suppressor cells (MDSCs), but upregulated ratios of M1/M2 macrophages, CD8/CD4, and CD8/regulatory T (Treg) cells infiltrated into liver tumors and whole liver. A group of long-lasting T-bet + Eomes − PD-1 − cytotoxic T cells was maintained in the combo-treated liver, leading to resistance to tumor recurrence. Depleting macrophages or blocking type Ⅰ interferon signaling abrogated the synergistic antitumor effect of αPD-L1 and poly(I:C), indicating a requirement of boosting innate immunity for optimized activation of cytotoxic T cells by PD-1/PD-L1 blockade.

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Alternative RNA Splicing in Fatty Liver Disease

Zhang

Webster

2021

Front. Endocrinol.

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Alternative RNA splicing is a process by which introns are removed and exons are assembled to construct different RNA transcript isoforms from a single pre-mRNA. Previous studies have demonstrated an association between dysregulation of RNA splicing and a number of clinical syndromes, but the generality to common disease has not been established. Non-alcoholic fatty liver disease (NAFLD) is the most common liver disease affecting one-third of adults worldwide, increasing the risk of cirrhosis and hepatocellular carcinoma (HCC). In this review we focus on the change in alternative RNA splicing in fatty liver disease and the role for splicing regulation in disease progression.

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Hepatocyte Deletion of IGF2 Prevents DNA Damage and Tumor Formation in Hepatocellular Carcinoma

et al. 2022

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Hepatocellular carcinoma (HCC) is the fifth most common cancer worldwide. Serine-arginine rich splicing factor 3 (SRSF3) plays a critical role in hepatocyte function and its loss in mice promotes chronic liver damage and leads to HCC. Hepatocyte-specific SRSF3 knockout mice (SKO mice) also overexpress insulin-like growth factor 2 (IGF2). In the present study, double deletion of Igf2 and Srsf3 (DKO mice) prevents hepatic fibrosis and inflammation, and completely prevents tumor formation, and is associated with decreased proliferation, apoptosis and DNA damage, and restored DNA repair enzyme expression. This is confirmed in vitro, where IGF2 treatment of HepG2 hepatoma cells decreases DNA repair enzyme expression and causes DNA damage. Tumors from the SKO mice also show mutational signatures consistent with homologous recombination and mismatch repair defects. Analysis of frozen human samples shows that SRSF3 protein is decreased sixfold in HCC compared to normal liver tissue but SRSF3 mRNA is increased. Looking at public TCGA data, HCC patients having high SRSF3 mRNA expression show poor survival, as do patients with alterations in known SRSF3-dependent splicing events. The results indicate that IGF2 overexpression in conjunction with reduced SRSF3 splicing activity could be a major cause of DNA damage and driver of liver cancer.

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Panyisha Wu

An Efficient Combination Immunotherapy for Primary Liver Cancer by Harmonized Activation of Innate and Adaptive Immunity in Mice

Enhancing the therapeutic efficacy of programmed death ligand 1 antibody for metastasized liver cancer by overcoming hepatic immunotolerance in mice

Alternative RNA Splicing in Fatty Liver Disease

Hepatocyte Deletion of IGF2 Prevents DNA Damage and Tumor Formation in Hepatocellular Carcinoma

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