Integrated multi-omics analysis reveals that MARCKS reprograms the immunosuppressive microenvironment to drive hepatocellular carcinoma progression

马尔克斯 癌症研究 肿瘤微环境 基因沉默 生物 下调和上调 免疫系统 肝细胞癌 转录组 巨噬细胞 车站3 肿瘤进展 RNA干扰 信号转导 肿瘤相关巨噬细胞 细胞培养 免疫疗法 调节器 免疫学 胶质瘤 细胞生长 医学 表型 小干扰RNA 癌症
作者
Haifei Qin,Qinchen Lu,Baicheng Hu,X. K. Zhou,Chenlu Lan,Honglong Lu,Donghua Gao,Chongjiu Qin,Kai Peng,Yongguang Wei,Xiwen Liao,Tao Peng,Liming Shang,Guangzhi Zhu
出处
期刊:npj precision oncology [Nature Portfolio]
标识
DOI:10.1038/s41698-026-01372-7
摘要

Hepatocellular carcinoma (HCC) is one of the most lethal malignancies worldwide, and its progression is closely linked to the establishment of an immunosuppressive tumor microenvironment. Myristoylated alanine-rich C kinase substrate (MARCKS) has been implicated in tumor biology; however, its role in regulating immune interactions in HCC remains poorly defined. Here, we performed an integrated multi-omics analysis combining bulk transcriptomics, single-cell RNA sequencing, and spatial transcriptomics to systematically investigate the expression pattern and functional relevance of MARCKS in HCC. We found that MARCKS was significantly upregulated in HCC tissues and that high MARCKS expression was associated with aggressive clinicopathological features and unfavorable prognosis. Single-cell and spatial analyses revealed that MARCKS expression was enriched in myeloid cell populations within the tumor microenvironment. Functional annotation and mIF(Multiple immunofluorescence) validation demonstrated that MARCKS expression was associated with enhanced JAK/STAT3 signaling and M2-like macrophage polarization. Consistently, MARCKS silencing in HCC cell lines reduced STAT3 phosphorylation, suppressed malignant phenotypes in vitro, inhibited tumor growth in vivo, and diminished the capacity of tumor-derived conditioned media to promote macrophage M2 polarization. Together, these findings identify MARCKS as a key regulator of the immunosuppressive tumor microenvironment in HCC and highlight its potential as a therapeutic target for overcoming immune evasion.
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