High glucose facilitates hepatocellular carcinoma cell proliferation and invasion via WTAP-mediated HK2 mRNA stability.

IF 3.5 2区生物学 Q3 CELL BIOLOGY

Molecular and Cellular Biochemistry Pub Date : 2025-07-01 Epub Date: 2025-03-03 DOI:10.1007/s11010-025-05235-w

Yongshen Niu, Siying Jia, Xuelian Xiao, Kangsheng Tu, Qingguang Liu

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Abstract

Hepatocellular carcinoma (HCC) is one of the most common cancers, and diabetes is a risk factor for hepatocarcinogenesis. N6-methyladenosine (m6A) methyltransferase WT1-associated protein (WTAP) is highly expressed in HCC and contributes to tumor progression. However, its role in high glucose-driven HCC progression remains unclear. The m6A quantitative assay was used to detect the m6A modification level. The levels of mRNAs and proteins were detected by qPCR, Western blot, and immunohistochemistry. CCK-8, colony formation, EdU, and transwell assays were used to detect HCC cell proliferation, invasion, and migration. Immunoprecipitation and CHX assays were used to reveal the regulatory effect of high glucose on WTAP. An RNA degradation experiment was used to explore WTAP's regulation of HK2 mRNA. To demonstrate the effect of high glucose on HCC growth in vivo, a diabetic mouse model was constructed, and HCC cells were subcutaneously injected. High glucose prominently increased the global level of m6A in HCC cells. Interestingly, high glucose upregulated WTAP protein rather than mRNA expression. We found that WTAP expression was significantly upregulated in HCC tissues, especially in tumor tissues of diabetic patients. WTAP knockdown markedly attenuated high glucose-induced abilities of HCC cell proliferation, colony formation, migration, and invasion. Meanwhile, WTAP overexpression significantly enhanced the malignant behaviors of HCC cells under low glucose conditions. High glucose reduced the ubiquitination of WTAP, thereby inhibiting its proteasomal and lysosomal degradation. Phosphorylated ERK (p-ERK) was required for high glucose-mediated WTAP stability. WTAP knockdown prominently abrogated high glucose-induced global m6A levels and HK2 expression in HCC cells. WTAP positively regulated HK2 expression by increasing mRNA stability. HK2 overexpression remarkably reversed the suppressive effects of WTAP knockdown on HCC cells. HK2 knockdown prominently abolished the promoting role of WTAP in HCC cells. Importantly, the growth of HCC cells in diabetic mice was significantly faster than that in control mice, which was prominently attenuated by WTAP knockdown. Our study demonstrated that high glucose decreased WTAP degradation and maintained its protein level by activating ERK phosphorylation. WTAP promoted HCC cell proliferation, colony formation, migration, and invasion by stabilizing HK2 mRNA.

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高糖通过wtap介导的HK2 mRNA稳定性促进肝癌细胞的增殖和侵袭。

肝细胞癌（HCC）是最常见的癌症之一，糖尿病是肝癌发生的危险因素。n6 -甲基腺苷（m6A）甲基转移酶wt1相关蛋白（WTAP）在HCC中高表达，并促进肿瘤进展。然而，其在高糖驱动的HCC进展中的作用尚不清楚。采用m6A定量法检测m6A修饰水平。采用qPCR、Western blot和免疫组织化学检测mrna和蛋白水平。CCK-8、菌落形成、EdU和transwell检测HCC细胞的增殖、侵袭和迁移。采用免疫沉淀法和CHX法研究高糖对WTAP的调节作用。通过RNA降解实验探讨WTAP对HK2 mRNA的调控作用。为了验证高糖对体内肝癌生长的影响，我们建立了糖尿病小鼠模型，并皮下注射肝癌细胞。高糖显著增加HCC细胞中m6A的整体水平。有趣的是，高葡萄糖上调了WTAP蛋白而不是mRNA的表达。我们发现WTAP在HCC组织中表达显著上调，尤其是在糖尿病患者的肿瘤组织中。WTAP敲低显著减弱高糖诱导的HCC细胞增殖、集落形成、迁移和侵袭能力。同时，WTAP过表达显著增强了低糖条件下HCC细胞的恶性行为。高葡萄糖降低了WTAP的泛素化，从而抑制了其蛋白酶体和溶酶体的降解。磷酸化ERK （p-ERK）是高葡萄糖介导的WTAP稳定性所必需的。WTAP敲除显著消除了高糖诱导的HCC细胞中m6A水平和HK2表达。WTAP通过增加mRNA的稳定性正向调节HK2的表达。HK2过表达显著逆转了WTAP敲低对HCC细胞的抑制作用。HK2敲低显著地消除了WTAP在HCC细胞中的促进作用。重要的是，糖尿病小鼠HCC细胞的生长速度明显快于对照组小鼠，WTAP敲除显著减弱了肝癌细胞的生长速度。我们的研究表明，高葡萄糖通过激活ERK磷酸化来降低WTAP的降解并维持其蛋白水平。WTAP通过稳定HK2 mRNA促进HCC细胞增殖、集落形成、迁移和侵袭。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Molecular and Cellular Biochemistry 生物-细胞生物学

CiteScore

8.30

自引率

2.30%

发文量

293

审稿时长

1.7 months

期刊介绍： Molecular and Cellular Biochemistry: An International Journal for Chemical Biology in Health and Disease publishes original research papers and short communications in all areas of the biochemical sciences, emphasizing novel findings relevant to the biochemical basis of cellular function and disease processes, as well as the mechanics of action of hormones and chemical agents. Coverage includes membrane transport, receptor mechanism, immune response, secretory processes, and cytoskeletal function, as well as biochemical structure-function relationships in the cell. In addition to the reports of original research, the journal publishes state of the art reviews. Specific subjects covered by Molecular and Cellular Biochemistry include cellular metabolism, cellular pathophysiology, enzymology, ion transport, lipid biochemistry, membrane biochemistry, molecular biology, nuclear structure and function, and protein chemistry.