样本编号

SAMC2082432

外部数据库编号

样品名称

DU145-2-69-1

样本标题

2-69-1

样品类型

Human sample

物种名称

Homo sapiens

描述信息

01 DYRK2 KD target similar signaling pathways to YK-2-69 treatment in the proliferation inhibition of PCa cells.

样本属性

分离株名称	not collected
年龄
实验材料提供者	China Pharmaceutical University
性别	male
组织器官	prostate
疾病名称
细胞系
细胞亚型
细胞类型
收集/保存方法
发育阶段
疾病分期
血统性（民族）
健康状况
核型
表型
人口
种族（人种）
类型
处理方法
采样日期	2020-11-16

用户自定义属性

发布日期

2022-04-07

项目编号

PRJCA008893

提交者

Weijiao Chen (pengyang@cpu.edu.cn)

提交单位

China Pharmaceutical University

提交日期

2023-06-18

样本包含数据信息

资源名称	描述
GSA-Human (1)	-
HRA002200 (Open Access)	Prostate cancer (PCa) is one of the most prevalent cancers in men worldwide, and hormonal therapy plays a key role in the treatment of PCa. However, the inevitable drug resistance of hormonal therapy makes it urgent and necessary to identify novel targets for PCa treatment. Herein, dual-specificity tyrosine phosphorylation-regulated kinase 2 (DYRK2) was found and confirmed to be highly expressed in the PCa tissues and cells, and knock-down of DYRK2 remarkably reduced PCa burden in vitro and in vivo. On the base of DYRK2 acting as a promising target, we further discovered a highly selective DYRK2 inhibitor YK-2-69, which specifically interacted with Lys-231 and Lys-234 in the co-crystal structure. Especially, YK-2-69 exhibited more potent anti-PCa efficacy than the first-line drug enzalutamide in vivo. Meanwhile, YK-2-69 displayed excellent safety properties with a maximal tolerable dose of more than 10,000 mg/kg and great pharmacokinetic profiles with 56% bioavailability.

资源名称

描述

GSA-Human (1)

HRA002200 (Open Access)

Prostate cancer (PCa) is one of the most prevalent cancers in men worldwide, and hormonal therapy plays a key role in the treatment of PCa. However, the inevitable drug resistance of hormonal therapy makes it urgent and necessary to identify novel targets for PCa treatment. Herein, dual-specificity tyrosine phosphorylation-regulated kinase 2 (DYRK2) was found and confirmed to be highly expressed in the PCa tissues and cells, and knock-down of DYRK2 remarkably reduced PCa burden in vitro and in vivo. On the base of DYRK2 acting as a promising target, we further discovered a highly selective DYRK2 inhibitor YK-2-69, which specifically interacted with Lys-231 and Lys-234 in the co-crystal structure. Especially, YK-2-69 exhibited more potent anti-PCa efficacy than the first-line drug enzalutamide in vivo. Meanwhile, YK-2-69 displayed excellent safety properties with a maximal tolerable dose of more than 10,000 mg/kg and great pharmacokinetic profiles with 56% bioavailability.