Methionine Deprivation-induced Cancer Cell Death and Methylation Changes in Key Genes and Gene Promoters of Prostate Cancer Cell Lines.

IF 1.7 4区医学 Q4 ONCOLOGY

Anticancer research Pub Date : 2025-08-01 DOI:10.21873/anticanres.17683

Yatin Srinivash Ramesh Babu, Kallidaikurichi V Venkatachalam

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Abstract

Background/aim: While normal cells are highly regulated, cancer cells take a dysregulated path which bolsters their survival. Currently, a limited number of uniform treatments are available for cancer cure. Our goal was to deprive cancer cells of the key nutrient methionine and determine what effect it would have on cell death and alterations in DNA methylation of prostate cancer cells.

Materials and methods: PC3 and other cell lines were transfected with plasmid gene constructs for methionine gamma lyase deaminase (MEGL), a methionine-degrading enzyme, targeted for expression in the cytoplasm (cMEGL) or the nucleus (nMEGL). For assessing cell death due to MEGL-mediated methionine deprivation, a standard 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide assay was used. PC3, and DU145 prostate cancer cells were selected for whole-methylome sequencing to determine the effects of MEGL expression. Key gene products comprising the Prolaris Molecular Score, specifically 31 cell-cycle progression genes, were chosen for assessing putative differences in methylome.

Results: Treatment with MEGL gene targeted for expression in either the cytoplasm or nucleus caused significant cell death, similar to that due to the anticancer drug methotrexate. Azacytidine showed no effect on PC3 cell death. Propargylglycine, an inhibitor of MEGL, prevented cell death. Methylome analysis showed increased methylation of two genes: Spindle and kinetochore-associated complex subunit 1 (SKA1), origin recognition complex subunit 6 (ORC6L), and reduced methylation of six promoters: BUB1 mitotic checkpoint serine/threonine kinase B (BUB1B), PDZ binding kinase (PBK), baculoviral IAP repeat-containing 5 (BIRC5), centromere protein M (CENPM), DNA topoisomerase II alpha (TOP2A), minichromosome maintenance 10 replication initiation factor (MCM10), upon forced expression of MEGL.

Conclusion: Methionine deprivation through MEGL-targeted gene therapy may be a viable option for inducing cancer cell death compared to unrestricted levels of methionine.

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蛋氨酸剥夺诱导前列腺癌细胞死亡及关键基因和基因启动子甲基化变化

背景/目的：当正常细胞受到高度调控时，癌细胞却采取了一条失调的途径来促进它们的生存。目前，用于癌症治疗的统一治疗方法数量有限。我们的目标是剥夺癌细胞的关键营养蛋氨酸，并确定它对前列腺癌细胞的细胞死亡和DNA甲基化的改变有什么影响。材料和方法：用甲硫氨酸γ裂解酶脱氨酶（methionine gamma lyase deaminase， MEGL）质粒基因构建物转染PC3等细胞系，MEGL是一种蛋氨酸降解酶，目标表达于细胞质（cMEGL）或细胞核（nMEGL）。为了评估megl介导的蛋氨酸剥夺导致的细胞死亡，使用标准的3-（4,5-二甲基噻唑-2-基）-2,5-二苯基溴化四唑测定法。选择PC3和DU145前列腺癌细胞进行全甲基组测序，以确定MEGL表达的影响。组成Prolaris分子评分的关键基因产物，特别是31个细胞周期进展基因，被选择来评估甲基组的假定差异。结果：靶向表达于细胞质或细胞核的MEGL基因与抗癌药物甲氨蝶呤类似，均可导致细胞明显死亡。氮扎胞苷对PC3细胞死亡无影响。丙基甘氨酸是一种MEGL抑制剂，可防止细胞死亡。甲基组分析显示两个基因甲基化增加：纺锤体和着丝酶相关复合物亚基1 (SKA1)，起源识别复合物亚基6 (ORC6L)， 6个启动子甲基化降低。BUB1有丝分裂检查点丝氨酸/苏氨酸激酶B （BUB1B）、PDZ结合激酶（PBK）、杆状病毒IAP重复物含5 （BIRC5）、着丝粒蛋白M （CENPM）、DNA拓扑异构酶II α (TOP2A)、小染色体维持10复制起始因子（MCM10）。结论：与不受限制的蛋氨酸水平相比，通过megl靶向基因治疗剥夺蛋氨酸可能是诱导癌细胞死亡的可行选择。

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

Anticancer research 医学-肿瘤学

CiteScore

3.70

自引率

10.00%

发文量

566

审稿时长

2 months

期刊介绍： ANTICANCER RESEARCH is an independent international peer-reviewed journal devoted to the rapid publication of high quality original articles and reviews on all aspects of experimental and clinical oncology. Prompt evaluation of all submitted articles in confidence and rapid publication within 1-2 months of acceptance are guaranteed. ANTICANCER RESEARCH was established in 1981 and is published monthly (bimonthly until the end of 2008). Each annual volume contains twelve issues and index. Each issue may be divided into three parts (A: Reviews, B: Experimental studies, and C: Clinical and Epidemiological studies). Special issues, presenting the proceedings of meetings or groups of papers on topics of significant progress, will also be included in each volume. There is no limitation to the number of pages per issue.