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Animal tissue; apoptosis; article; CAMK2N1 gene; cancer inhibition; cancer staging; castration resistant prostate cancer; cell cycle G1 phase; cell cycle progression; cell proliferation; controlled study; down regulation; ERBB2 gene; female; gene expression regulation; gene overexpression; genome analysis; human; human cell; human tissue; IGF 1 gene; immunohistochemistry; in vivo study; male; nonhuman; protein expression; quantitative analysis; reverse transcription polymerase chain reaction; signal transduction; tumor gene; upregulation; VEGF gene
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Full-Text Articles in Medicine and Health Sciences
The Tumor Suppressive Role Of Camk2n1 In Castration-Resistant Prostate Cancer., Tao Wang, Zhuo Liu, Shuiming Guo, Licheng Wu, Mingchao Li, Jun Yang, Ruibao Chen, Hua Xu, Shaoxin Cai, Hui Chen, Weiyong Li, Liang Wang, Zhiquan Hu, Qianyuan Zhuang, Shaohua Xu, Liping Wang, Jihong Liu, Zhangqun Ye, Jun-Yuan Ji, Chenguang Wang, Ke Chen
The Tumor Suppressive Role Of Camk2n1 In Castration-Resistant Prostate Cancer., Tao Wang, Zhuo Liu, Shuiming Guo, Licheng Wu, Mingchao Li, Jun Yang, Ruibao Chen, Hua Xu, Shaoxin Cai, Hui Chen, Weiyong Li, Liang Wang, Zhiquan Hu, Qianyuan Zhuang, Shaohua Xu, Liping Wang, Jihong Liu, Zhangqun Ye, Jun-Yuan Ji, Chenguang Wang, Ke Chen
Jihong Liu
Prostate cancer at advanced stages including metastatic and castration-resistant cancer remains incurable due to the lack of effective therapies. The CAMK2N1 gene, cloned and characterized as an inhibitor of CaMKII (calcium/calmodulin-dependent protein kinase II), has been shown to affect tumorigenesis and tumor growth. However, it is still unknown whether CAMK2N1 plays a role in prostate cancer development. We first examined the protein and mRNA levels of CAMK2N1 and observed a significant decrease in human prostate cancers comparing to normal prostate tissues. Re-expression of CAMK2N1 in prostate cancer cells reduced cellular proliferation, arrested cells in G0/G1 phases, and induced apoptotic cell …