Wang Lei, He Daheng, Li Qianjin, Orren David, Wang Chi, Liu Jinpeng, Li Zhiguo, Liu Xiaoqi
Department of Toxicology and Cancer Biology, University of Kentucky, Lexington, Kentucky.
Markey Cancer Center, University of Kentucky, Lexington, Kentucky.
J Pharmacol Exp Ther. 2025 Feb;392(2):100051. doi: 10.1016/j.jpet.2024.100051. Epub 2024 Nov 30.
Prostate cancer, particularly castration-resistant prostate cancer, remains a serious public health issue. Androgen signaling inhibitors have emerged as a major treatment approach but with limited success. Thus, identification of novel treatment targets is of high clinical relevance. Polo-like kinase 1 (PLK1) has documented roles in various aspects of prostate cancer, including resistance to androgen inhibitors. Radiotherapy is another major approach for treating prostate cancer, but how Plk1 might regulate the efficacy of radiotherapy is unknown. Nonhomologous end joining (NHEJ) and homologous recombination (HR) are 2 major DNA repair pathways, with cellular choices between NHEJ and HR being elegantly regulated by end-processing. However, how the long-range DNA end resection is regulated remains poorly understood. It has been documented that Werner syndrome protein (WRN) is actively involved in the long-range resection pathway. In this study, we demonstrate that PLK1-associated phosphorylation of WRN regulates end resection at double-strand breaks, thereby promoting HR and chromosome stability. Cells expressing the WRN nonphosphorylatable mutant show the phenotype similar to WRN null cells because they lack the ability for long-range resection and increase NHEJ. In summary, we reveal that PLK1-associated Mre11, Rad50 and Nbs1 phosphorylation promotes end resection, eventually affecting cellular choices for double-strand break repair pathways. SIGNIFICANCE STATEMENT: Both DNA damage repair and PLK1 play critical roles in the efficacy of radiotherapy of prostate cancer. The data presented here will provide guidance on how to manipulate PLK1 to improve the efficacy of radiotherapy in clinical settings.
前列腺癌,尤其是去势抵抗性前列腺癌,仍然是一个严重的公共卫生问题。雄激素信号抑制剂已成为一种主要的治疗方法,但成效有限。因此,确定新的治疗靶点具有高度的临床相关性。Polo样激酶1(PLK1)在前列腺癌的各个方面都有记载的作用,包括对雄激素抑制剂的抗性。放射治疗是治疗前列腺癌的另一种主要方法,但PLK1如何调节放射治疗的疗效尚不清楚。非同源末端连接(NHEJ)和同源重组(HR)是两种主要的DNA修复途径,细胞在NHEJ和HR之间的选择由末端处理精细调节。然而,远距离DNA末端切除是如何被调节的仍知之甚少。有文献记载,沃纳综合征蛋白(WRN)积极参与远距离切除途径。在本研究中,我们证明PLK1相关的WRN磷酸化调节双链断裂处的末端切除,从而促进HR和染色体稳定性。表达WRN不可磷酸化突变体的细胞表现出与WRN缺失细胞相似的表型,因为它们缺乏远距离切除能力并增加了NHEJ。总之,我们揭示PLK1相关的Mre11、Rad50和Nbs1磷酸化促进末端切除,最终影响双链断裂修复途径的细胞选择。意义声明:DNA损伤修复和PLK1在前列腺癌放射治疗的疗效中都起着关键作用。此处提供的数据将为如何操纵PLK1以提高临床放射治疗疗效提供指导。
