Lee Jeong Min, Lee Won Hyeok, Cho Seung Hyeon, Park Jeong Woo, Kwon Hyuk Nam, Kim Ji Hye, Lee Sang Hun, Yoon Ji Hyung, Park Sungchan, Kim Seong Cheol
School of Biological Sciences, University of Ulsan, Ulsan, Korea.
Basic-Clinic Convergence Research Institute, University of Ulsan, Ulsan, Korea.
Investig Clin Urol. 2025 Jan;66(1):56-66. doi: 10.4111/icu.20240263.
Developmentally regulated GTP-binding protein 2 (DRG2) regulates microtubule dynamics and G2/M arrest during docetaxel treatment. Poly ADP-ribose polymerase (PARP) acts as an important repair system for DNA damage caused by docetaxel treatment. This study investigated whether DRG2 expression affects response to PARP inhibitors (olaparib) using prostate cancer cell lines PC3, DU145, LNCaP-FGC, and LNCaP-LN3.
The cell viability and DRG2 expression levels were assessed using colorimetric-based cell viability assay and western blot. Cells were transfected with DRG2 siRNA, and pcDNA6/V5-DRG2 was used to overexpress DRG2. Flow cytometry was applied for cell cycle assay and apoptosis analysis using the Annexing V cell death assay.
The expression of DRG2 was highest in LNCaP-LN3 and lowest in DU145 cells. Expressions of p53 in PC3, DU145, and the two LNCaP cell lines were null-type, high-expression, and medium-expression, respectively. In PC3 (DRG2 high, p53 null) cells, docetaxel increased G2/M arrest without apoptosis; however, subsequent treatment with olaparib promoted apoptosis. In DU145 and LNCaP-FGC (DRG2 low), docetaxel increased sub-G1 but not G2/M arrest and induced apoptosis, whereas olaparib had no additional effect. In LNCaP-LN3 (DRG2 high, p53 wild-type), docetaxel increased sub-G1 and G2/M arrest, furthermore olaparib enhanced cell death. Docetaxel and olaparib combination treatment had a slight effect on DRG2 knockdown PC3, but increased apoptosis in DRG2-overexpressed DU145 cells.
DRG2 and p53 expressions play an important role in prostate cancer cell lines treated with docetaxel, and DRG2 levels can predict the response to PARP inhibitors.
发育调控型GTP结合蛋白2(DRG2)在多西他赛治疗期间调节微管动力学和G2/M期阻滞。聚ADP核糖聚合酶(PARP)是多西他赛治疗引起的DNA损伤的重要修复系统。本研究使用前列腺癌细胞系PC3、DU145、LNCaP-FGC和LNCaP-LN3,调查DRG2表达是否影响对PARP抑制剂(奥拉帕利)的反应。
使用基于比色法的细胞活力测定和蛋白质印迹法评估细胞活力和DRG2表达水平。用DRG2小干扰RNA转染细胞,并使用pcDNA6/V5-DRG2过表达DRG2。采用流式细胞术进行细胞周期分析,并使用Annexin V细胞死亡检测法进行凋亡分析。
DRG2在LNCaP-LN3细胞中的表达最高,在DU145细胞中最低。PC3、DU145以及两种LNCaP细胞系中p53的表达分别为无效型、高表达型和中等表达型。在PC3(DRG2高表达,p53无效)细胞中,多西他赛增加了G2/M期阻滞但未诱导凋亡;然而,随后用奥拉帕利治疗促进了凋亡。在DU145和LNCaP-FGC(DRG2低表达)细胞中,多西他赛增加了亚G1期而非G2/M期阻滞并诱导了凋亡,而奥拉帕利没有额外作用。在LNCaP-LN3(DRG2高表达,p53野生型)细胞中,多西他赛增加了亚G1期和G2/M期阻滞,此外奥拉帕利增强了细胞死亡。多西他赛和奥拉帕利联合治疗对DRG2敲低的PC3细胞有轻微作用,但增加了DRG2过表达的DU145细胞中的凋亡。
DRG2和p53表达在用多西他赛治疗的前列腺癌细胞系中起重要作用,并且DRG2水平可以预测对PARP抑制剂的反应。
