As one of the most lethal cancers, primary liver cancer (PLC) has high tumor heterogeneity, including the heterogeneity between cancer cells. Traditional methods which have been used to identify tumor heterogeneity for a long time are based on large mixed cell samples, and the research results usually show average level of the cell population, ignoring the heterogeneity between cancer cells. In recent years, single-cell sequencing has been increasingly applied to the studies of PLCs. It can detect the heterogeneity between cancer cells, distinguish each cell subgroup in the tumor microenvironment (TME), and also reveal the clonal characteristics of cancer cells, contributing to understand the evolution of tumor. Here, we introduce the process of single-cell sequencing, review the applications of single-cell sequencing in the heterogeneity of cancer cells, TMEs, oncogenesis, and metastatic mechanisms of liver cancer, and discuss some of the current challenges in the field.
Colorectal cancer (CRC), one of the cancers with highest mortality, involves complicated molecular mechanisms leading to the onset of malignant phenotypes. ZNF280A, a member of the zinc-finger protein family, was shown to be a promotor of oncogenesis in CRC in this study. ZNF280A was remarkably upregulated in CRC tissues, which was meaningfully associated with tumor progression and poor prognosis in patients with CRC. Loss-of-function studies revealed that ZNF280A knockdown inhibited the development and progression of CRC as evident by the inhibition of cell proliferation, colony formation, cell apoptosis, cell cycle distribution, and cell migration in vitro and the repressed tumorigenesis of CRC cells in vivo. Next, we showed that RPS14 was the downstream target of ZNF280A and ZNF280A knockdown promoted the ubiquitination as well as degradation of RPS14 in CRC. Additionally, we demonstrated that RPS14 regulated the development of CRC via PI3K-Akt signaling pathway. Taken together, our findings provide a novel clear insight into ZNF280A/RPS14/PI3K-Akt axis in CRC for the first time, offering a potential target for early detection, diagnosis and treatment of CRC in future clinical applications.
Within the tumor microenvironment (TME), regulatory T (Treg) cells are one attractive cell type for targeting as they play a critical role in immunosuppression. Therapeutic strategies that specifically inhibit tumor-infiltrating Tregs while sparing peripheral and normal tissue Tregs are highly desirable. The tumor-associated Tregs express the chemokine receptor CCR8, which plays a role in the induction, expansion, chemotactic migration, and immunosuppression of tumor-associated Tregs. Thus, targeted inhibition of CCR8 is a potential therapeutic strategy against cancer. We have developed a monoclonal antibody antagonist of CCR8, IPG0521, which potently inhibited the receptor-mediated signaling and chemotaxis in Treg cells with single digital nanomolar IC50. RNA sequencing (RNA-seq)analysis indicated that CCL1-induced up-regulation of immunosuppressive genes, including PD-1, CTLA4, IL-10, TIGIT etc., were reversed by IPG0521 in tumor-derived Treg cells. IPG0521 potently inhibited the growth of multiple tumor types in both syngeinic and immune-humanized mouse models, including lung cancer, liver cancer, breast cancer, via inhibiting Treg and activating CD8+ T cells. These data pave the way for the development of IPG0521, which is under IND filing, as a novel therapeutic agent against cancer. Citation Format: Guohuang Fan, Jianfei Wang, Na Wang, Yuanyuan Zhang, Yong Zhang, Binle Tian, Xuebing Jia. Development of a CCR8 monoclonal antibody which blocks CCR8 signaling and abolishes the immunosuppressive function of Treg for the treatment of cancer [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2023; Part 1 (Regular and Invited Abstracts); 2023 Apr 14-19; Orlando, FL. Philadelphia (PA): AACR; Cancer Res 2023;83(7_Suppl):Abstract nr 2340.
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