蛋白激酶D1减轻依托泊苷诱导的前列腺癌DNA损伤与α-连环蛋白增加有关。

Protein kinase D1 mitigation against etoposide induced DNA damage in prostate cancer is associated with increased α-Catenin.

作者信息

Shukla Sanjeev, Osumi Teruko, Al-Toubat Mohammed, Serrano Samuel, Singh Pankaj Kumar, Mietzsch Mario, McKenna Robert, Chardon-Robles Jonathan, Krishnan Sunil, Balaji K C

机构信息

Department of Urology, University of Florida, Jacksonville, Florida, USA.

Department of Radiation Oncology, Mayo Clinic Florida, Jacksonville, Florida, USA.

出版信息

Prostate. 2025 Feb;85(2):156-164. doi: 10.1002/pros.24812. Epub 2024 Oct 20.

DOI:10.1002/pros.24812

PMID:39428693

Abstract

BACKGROUND

The E-cadherin, α- and β-Catenin interaction at the cell adherens junction plays a key role in cell adhesion; alteration in the expression and function of these genes are associated with disease progression in several solid tumors including prostate cancer. The membranous β-Catenin is dynamically linked to the cellular cytoskeleton through interaction with α-Catenin at amino acid positions threonine 120 (T120) to 151 of β-Catenin. Nuclear presence of α-Catenin modulates the sensitivity of cells to DNA damage. The objective of this study is to determine the role of α-Catenin and protein kinase D1 (PrKD1) in DNA damage response.

METHODS

Prostate cancer cells; LNCaP, LNCaP (Sh-PrKD1; silenced PrKD1), C4-2 and C4-2 PrKD1 were used for various sets of experiments to determine the role of DNA damage in PrKD1 overexpression and silencing cells. These cells were treated with compound-10 (100 nM) and Etoposide (30 µM), total cell lysates, cytosolic and nuclear fractions were prepared to observe various protein expressions. We performed single cell gel electrophoresis (COMET assay) to determine the etoposide induce DNA damage in C4-2 and C4-2 PrKD1 cells. The animal experiments were carried out to determine the tolerability of compound-10 by mice and generate preliminary data on efficacy of compound-10 in modulating the α-Catenin and PrKD1 expressions in inhibiting tumor progression.

RESULTS

PrKD1, a novel serine threonine kinase, phosphorylates β-Catenin T120. In silico analysis, confirmed that T120 phosphorylation alters β- to α-Catenin binding. Forced expression of PrKD1 in prostate cancer cells increased β- and α-Catenin protein levels associated with reduced etoposide induced DNA damage. Downregulation of α-Catenin abrogates the PrKD1 mitigation of DNA damage. The in vitro results were corroborated in vivo using mouse prostate cancer patient derived xenograft model by inhibition of PrKD1 kinase activity with compound-10, a selective PrKD inhibitor, demonstrating decreased total β- and α-Catenin protein levels, and β-Catenin T120 phosphorylation.

CONCLUSIONS

Alteration in DNA damage response pathways play major role in prostate cancer progression. The study identifies a novel mechanism of α-Catenin dependent DNA damage mitigation role for PrKD1 in prostate cancer.

摘要

背景

上皮钙黏蛋白、α-连环蛋白和β-连环蛋白在细胞黏附连接中的相互作用在细胞黏附中起关键作用；这些基因的表达和功能改变与包括前列腺癌在内的几种实体瘤的疾病进展相关。膜性β-连环蛋白通过与β-连环蛋白第120位（T120）至151位氨基酸处的α-连环蛋白相互作用，与细胞骨架动态相连。α-连环蛋白在细胞核中的存在调节细胞对DNA损伤的敏感性。本研究的目的是确定α-连环蛋白和蛋白激酶D1（PrKD1）在DNA损伤反应中的作用。

方法

使用前列腺癌细胞LNCaP、LNCaP（Sh-PrKD1；PrKD1沉默）、C4-2和C4-2 PrKD1进行多组实验，以确定DNA损伤在PrKD1过表达和沉默细胞中的作用。这些细胞用化合物-10（100 nM）和依托泊苷（30 μM）处理，制备总细胞裂解物、细胞质和细胞核组分以观察各种蛋白质表达。我们进行单细胞凝胶电泳（彗星试验）以确定依托泊苷在C4-2和C4-2 PrKD1细胞中诱导的DNA损伤。进行动物实验以确定小鼠对化合物-10的耐受性，并生成关于化合物-10在调节α-连环蛋白和PrKD1表达以抑制肿瘤进展方面疗效的初步数据。

结果

PrKD1是一种新型丝氨酸苏氨酸激酶，可使β-连环蛋白T120磷酸化。计算机分析证实，T120磷酸化改变了β-连环蛋白与α-连环蛋白的结合。前列腺癌细胞中PrKD1的强制表达增加了β-连环蛋白和α-连环蛋白的蛋白质水平，同时依托泊苷诱导的DNA损伤减少。α-连环蛋白的下调消除了PrKD1对DNA损伤的减轻作用。使用化合物-10（一种选择性PrKD抑制剂）抑制PrKD1激酶活性，在小鼠前列腺癌患者来源的异种移植模型中，体内实验结果证实了体外实验结果，表明总β-连环蛋白和α-连环蛋白水平降低，以及β-连环蛋白T120磷酸化减少。