HCRP-1 regulates cell migration, invasion and angiogenesis via Src/ FAK signaling in human prostate cancer.

Prostate cancer (PCa) is the third leading malignancy engendering mortality among men globally. The present study aimed at determining the expression of hepatocellular carcinoma-related protein-1 (HCRP-1) in PCa, to explore its potential role in prostate tumorigenesis in vitro and in vivo. We evaluated HCRP-1 protein with immunohistochemistry (IHC) technology and found HCRP-1 expression was significantly low in PCa tissues (PCTs); In addition, the decreased HCRP-1 was significantly associated with TNM (tumor node metastasis) stage, advanced histology grade and gleason score. Transwell, tube formation, Western blot and co-immunoprecipitation (Co-IP) assays were utilized to determine the role of down-regulating HCRP-1 in PCa cell migration, invasion and angiogenesis. Meanwhile, we found HCRP-1 depletion induced Src and focal adhesion kinase (FAK) phosphorylation, which could be reversed by Src inhibitor PP2 or FAK inhibitor. Furthermore, down-regulated HCRP-1 evidently induced lung metastasis of PCa cells in xenograft mode. Taken together, our study indicates HCRP-1 plays an important role in PCa metastasis. HCRP-1 may serve as a potential therapeutic target for PCa.

The Emerging Roles of RASSF5 in Human Malignancy.

Ras association domain family member 5 (RASSF5, also named NORE1) is an identified member of the RASSF gene family which could bind selectively to activate Ras and function as an antineoplastic effector in multiple cellular regulations. While highly expressed in majority of normal tissues, RASSF5 is epigenetically inactivated by promoter hypermethylation in numerous cancer cell lines and primary cancers, suggesting it as a potential tumor suppressor. Nevertheless, the physiologic significance of RASSF5 in tumorigenesis remains unclear. We performed a systematic literature review and assessment from PUBMED and MEDLINE databases in this article. RASSF5 is involved in a series of cellular responses including apoptosis, senescence, cell cycle regulation, differentiation and cell proliferation and the inactivation of RASSF5 has been implicated to participate in the oncogenesis, progression and poor prognosis of human cancers. In this review, we mainly elucidate the acknowledged structure, progress in the verified functions and research advances of RASSF5 and the probably relevant signaling pathways. Based on these evidences, potentiality of RASSF5 as a new therapeutic target for human cancers may play a significant role in future oncotherapy.

Effect of silencing the T­Box transcription factor TBX2 in prostate cancer PC3 and LNCaP cells.

T­Box (TBX)­2 is a member of the T­box gene family, which is aberrantly expressed in numerous types of malignant tumors, and has previously been demonstrated to be conducive to tumor progression by acting as a transcription factor. However, specific information regarding the expression and function of TBX2 in prostate cancer cells remains to be elucidated. The present study demonstrated that silencing of TBX2 by TBX2 small interfering RNA inhibited cell proliferation and promoted cell senescence. It was demonstrated that knockdown of TBX2 inhibited cell metastatic abilities by upregulating E­cadherin and downregulating N­cadherin, Vimentin and fibronectin. In addition, the expression of TBX2 in prostate cancer tissues and tumor adjacent tissues was detected by immunohistochemistry. The results indicated that the expression rates of TBX2 were significantly increased in the cancerous tissues, compared with the healthy tumor adjacent tissue, and TBX2 increased staining was associated with the clinical stage and pathological grade. The findings of the present study therefore suggest that TBX2 expression is markedly increased in prostate cancer and TBX2 may act as a potential beneficial therapeutic target for the future treatment of prostate cancer.