Inhibition of FBP1 expression by KMT5A through TWIST1 methylation is one of the mechanisms leading to chemoresistance in breast cancer.

IF 3.8 3区 医学 Q2 ONCOLOGY Oncology reports Pub Date : 2024-08-01 Epub Date: 2024-07-04 DOI:10.3892/or.2024.8769
Xue Peng, Lisi Ma, Xuan Chen, Fen Tang, Xiangyun Zong
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Abstract

Lysine methyltransferase 5A (KMT5A) is the sole mammalian enzyme known to catalyse the mono‑methylation of histone H4 lysine 20 and non‑histone proteins such as p53, which are involved in the occurrence and progression of numerous cancers. The present study aimed to determine the function of KMT5A in inducing docetaxel (DTX) resistance in patients with breast carcinoma by evaluating glucose metabolism and the underlying mechanism involved. The upregulation or downregulation of KMT5A‑related proteins was examined after KMT5A knockdown in breast cancer (BRCA) cells by Tandem Mass Tag proteomics. Through differential protein expression and pathway enrichment analysis, the upregulated key gluconeogenic enzyme fructose‑1,6‑bisphosphatase 1 (FBP1) was discovered. Loss of FBP1 expression is closely related to the development and prognosis of cancers. A dual‑luciferase reporter gene assay confirmed that KMT5A inhibited the expression of FBP1 and that overexpression of FBP1 could enhance the chemotherapeutic sensitivity to DTX through the suppression of KMT5A expression. The KMT5A inhibitor UNC0379 was used to verify that DTX resistance induced by KMT5A through the inhibition of FBP1 depended on the methylase activity of KMT5A. According to previous literature and interaction network structure, it was revealed that KMT5A acts on the transcription factor twist family BHLH transcription factor 1 (TWIST1). Then, it was verified that TWSIT1 promoted the expression of FBP1 by using a dual‑luciferase reporter gene experiment. KMT5A induces chemotherapy resistance in BRCA cells by promoting cell proliferation and glycolysis. After the knockdown of the KMT5A gene, the FBP1 related to glucose metabolism in BRCA was upregulated. KMT5A knockdown expression and FBP1 overexpression synergistically inhibit cell proliferation and block cells in the G2/M phase. KMT5A inhibits the expression of FBP1 by methylating TWIST1 and weakening its promotion of FBP1 transcription. In conclusion, KMT5A was shown to affect chemotherapy resistance by regulating the cell cycle and positively regulate glycolysis‑mediated chemotherapy resistance by inhibiting the transcription of FBP1 in collaboration with TWIST1. KMT5A may be a potential therapeutic target for chemotherapy resistance in BRCA.

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KMT5A 通过 TWIST1 甲基化抑制 FBP1 的表达是导致乳腺癌化疗耐药性的机制之一。
赖氨酸甲基转移酶 5A(KMT5A)是已知唯一能催化组蛋白 H4 赖氨酸 20 和非组蛋白(如 p53)单甲基化的哺乳动物酶,它参与了多种癌症的发生和发展。本研究旨在通过评估葡萄糖代谢及其内在机制,确定 KMT5A 在诱导乳腺癌患者产生多西他赛(DTX)耐药性方面的功能。通过串联质量标签蛋白质组学研究了乳腺癌(BRCA)细胞中 KMT5A 基因敲除后 KMT5A 相关蛋白的上调或下调情况。通过差异蛋白表达和通路富集分析,发现了上调的关键生糖酶果糖-1,6-二磷酸酶1(FBP1)。FBP1 的表达缺失与癌症的发生和预后密切相关。双荧光素酶报告基因检测证实,KMT5A 可抑制 FBP1 的表达,而 FBP1 的过表达可通过抑制 KMT5A 的表达提高对 DTX 的化疗敏感性。利用KMT5A抑制剂UNC0379验证了KMT5A通过抑制FBP1诱导的DTX耐药性取决于KMT5A的甲基化酶活性。根据之前的文献和相互作用网络结构,发现 KMT5A 作用于转录因子 twist family BHLH transcription factor 1(TWIST1)。然后,通过双荧光素酶报告基因实验验证了 TWSIT1 促进了 FBP1 的表达。KMT5A 通过促进细胞增殖和糖酵解诱导 BRCA 细胞的化疗耐药性。敲除 KMT5A 基因后,BRCA 中与糖代谢相关的 FBP1 上调。KMT5A 基因敲除和 FBP1 基因过表达能协同抑制细胞增殖,并阻止细胞进入 G2/M 期。KMT5A 通过甲基化 TWIST1 并削弱其对 FBP1 转录的促进作用来抑制 FBP1 的表达。总之,研究表明 KMT5A 通过调节细胞周期影响化疗耐药性,并通过与 TWIST1 合作抑制 FBP1 的转录正向调节糖酵解介导的化疗耐药性。KMT5A可能是BRCA化疗耐药性的潜在治疗靶点。
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来源期刊
Oncology reports
Oncology reports 医学-肿瘤学
CiteScore
8.50
自引率
2.40%
发文量
187
审稿时长
3 months
期刊介绍: Oncology Reports is a monthly, peer-reviewed journal devoted to the publication of high quality original studies and reviews concerning a broad and comprehensive view of fundamental and applied research in oncology, focusing on carcinogenesis, metastasis and epidemiology.
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