Your search keyword '"Zijia Ren"' showing total 2 results

1. E2F1 renders prostate cancer cell resistant to ICAM-1 mediated antitumor immunity by NF-?B modulation.

Author

Zijia Ren, Wenyao Kang, Lihua Wang, Baoliang Sun, Jiajia Ma, Chaogu Zheng, Jie Sun, Zhigang Tian, Xiaoyi Yang, and Weihua Xiao

Subjects

*CANCER cells, *TUMORS, *PROSTATE cancer, *BIOCHEMISTRY, *CELL lines

Abstract

Background E2F1 is the gatekeeper of the cell cycle controlling an analogous balance between proliferation and cell death. E2F1 expression is elevated in advanced prostate cancer. However, it is still unclear that the roles and mechanisms of E2F1 on prostate cancers. Methods Targeted knockdown by interferon RNA was applied on two prostate cancer and Hela cell lines to examine the inverse correlation expression of E2F1 and ICAM-1. ICAM-1 promoter reporter and ChIP assays were used for analysis of the molecular basis of transcriptional regulation of E2F1 on ICAM-1. Co-IP assays were employed for testing the protein interaction between E2F1 and NF-κB. Tumor xenograft mice model with E2F1 and ICAM-1- knockdown prostate cancer cells were used to investigate the effects of E2F1 and ICAM-1 on antitumor immunity. Results E2F1 knockdown by a specific short hairpin RNA increased gene transcription and protein expression of ICAM-1. By using wild type and a series of mutant ICAM-1 promoter luciferase constructs, the NF-κB binding sites were found to be important for E2F1 regulation of ICAM-1 promoter. Targeted knockdown of E2F1 did not affect expression and phosphorylation of NF-κB and I?Ba, but facilitated NF-κB binding to the ICAM-1 promoter, subsequently induced ICAM-1 transcription and production in prostate carcinoma cells. Furthermore, knockdown of E2F1 inhibited tumor growth of prostate cancer in vivo through increasing the susceptibility of tumor cells to ICAM-1-mediated anti-tumor immunity including enhancement of monocyte adhesion, leucocytes infiltration, as well as cytotoxicity against tumor cells. Conclusions E2F1 knockdown inhibited prostate tumor growth in vitro and in vivo through sensitizing tumor cells to ICAM-1 mediated anti-immunity by NF-κB modulation, highlighting the potential of E2F1 as a therapeutic target. [ABSTRACT FROM AUTHOR]

Published

2014

2. Targeted Knockdown of EGR-1 Inhibits IL-8 Production and IL-8-mediated Invasion of Prostate Cancer Cells through Suppressing EGR-1/NF-κB Synergy.

Author

Jiajia Ma, Zijia Ren, Yang Ma, Lu Xu, Ying Zhao, Chaogu Zheng, Yinghui Fang, Ting Xue, Baolin Sun, and Weihua Xiao

Subjects

*INTERLEUKIN-8, *PROSTATE cancer & genetics, *TRANSCRIPTION factors, *CANCER cell proliferation, *GENE silencing, *NF-kappa B, *BIOLOGICAL transport, *PREVENTION

Abstract

IL-8 produced by prostate cancer cells may be responsible for the androgen-independent growth of advanced prostate cancers. Accumulating evidence from microarray analyses and animal genetic models highlights the central involvement of the transcription factor early growth response-1 (EGR-1) in prostate carcinoma progression. It is unknown, however, whether knockdown of EGR-1 inhibits IL-8 production and IL-8-mediated tumor metastasis. Here we show that EGR-i knockdown by a specific shRNA-Egrl inhibited gene transcription and production of IL-8 by the human prostate cancer cell line DU145. Conversely, enforced expression of EGR-1 in EGR-1-lacking PC3 prostate cancer cells markedly enhanced IL-8 transcription and secretion. By using wild type and a series of mutant IL-8 promoter luciferase constructs, we found that the NF-κB binding site is important for EGR-1 regulation of IL-8. Furthermore, silencing EGR-1 suppressed a synergistically functional interaction between EGR-1 and NF-κB. Consequently, knockdown of EGR-1 inhibited IL-8-mediated tumor colony formation and invasion. Thus, targeted knockdown of EGR-1 could be an effective therapeutic approach against prostate cancer. [ABSTRACT FROM AUTHOR]

Published

2009