OBJECTIVES: Psoriasin, also known as S100A7 and first identified as a protein highly expressed in psoriatic lesions, is a calcium binding protein that has been indicated in various malignancies. The current study aimed to examine the implication of psoriasin in prostate cancer (CaP), particularly its impact on functions of CaP cells. MATERIALS AND METHODS: Expression of psoriasin was examined in a variety of prostatic cell lines and human CaP tissues using reverse transcriptase-polymerase chain reaction (RT-PCR) and immunohistochemistry, respectively. Knockdown and overexpression of psoriasin in CaP cells was performed using specifically constructed plasmids, which either had an anti-psoriasin ribozyme transgene or the full-length human S100A7 coding sequence. The effects of manipulating psoriasin expression on cellular functions of CaP cells were assessed using in vitro assays. RESULTS: Psoriasin was expressed in prostate epithelia and cancer cells. Elevated expression of psoriasin was evident in CaP from its IHC staining in CaP frozen specimens. Psoriasin promoted cell survival under serum starvation. Its expression was inversely correlated with cell-matrix adhesion. Psoriasin increased invasiveness of PC-3 cells via a regulation of matrix metalproteinases (MMPs). CONCLUSIONS: Aberrant expression of psoriasin is implicated in CaP. Its expression in CaP cells is associated with cell survival, adhesion, and in vitro invasion, which is via the regulation of MMPs.
OBJECTIVES: Psoriasin, also known as S100A7 and first identified as a protein highly expressed in psoriatic lesions, is a calcium binding protein that has been indicated in various malignancies. The current study aimed to examine the implication of psoriasin in prostate cancer (CaP), particularly its impact on functions of CaP cells. MATERIALS AND METHODS: Expression of psoriasin was examined in a variety of prostatic cell lines and human CaP tissues using reverse transcriptase-polymerase chain reaction (RT-PCR) and immunohistochemistry, respectively. Knockdown and overexpression of psoriasin in CaP cells was performed using specifically constructed plasmids, which either had an anti-psoriasin ribozyme transgene or the full-length humanS100A7 coding sequence. The effects of manipulating psoriasin expression on cellular functions of CaP cells were assessed using in vitro assays. RESULTS: Psoriasin was expressed in prostate epithelia and cancer cells. Elevated expression of psoriasin was evident in CaP from its IHC staining in CaP frozen specimens. Psoriasin promoted cell survival under serum starvation. Its expression was inversely correlated with cell-matrix adhesion. Psoriasin increased invasiveness of PC-3 cells via a regulation of matrix metalproteinases (MMPs). CONCLUSIONS: Aberrant expression of psoriasin is implicated in CaP. Its expression in CaP cells is associated with cell survival, adhesion, and in vitro invasion, which is via the regulation of MMPs.
Authors: Eva Hattinger; Stephanie Zwicker; Thomas Ruzicka; Stuart H Yuspa; Ronald Wolf Journal: Curr Opin Pharmacol Date: 2013-05-09 Impact factor: 5.547
Authors: Ying Liu; Carly Bunston; Nicholas Hodson; Jeyna Resaul; Ping-Hui Sun; Shuo Cai; Gang Chen; Yanan Gu; Lucy K Satherley; David C Bosanquet; Bilal Al-Sarireh; Xiuyun Tian; Chunyi Hao; Wen G Jiang; Lin Ye Journal: Int J Oncol Date: 2017-04-05 Impact factor: 5.650
Authors: Matthew J Burton; Saul N Rajak; Athumani Ramadhani; Helen A Weiss; Esmael Habtamu; Bayeh Abera; Baye Abera; Paul M Emerson; Peng T Khaw; David C W Mabey; Martin J Holland; Robin L Bailey Journal: PLoS Negl Trop Dis Date: 2012-12-20
Authors: Aravindan Rangaraj; Lin Ye; Andrew James Sanders; Patricia Elaine Price; Keith Gordon Harding; Wen Guo Jiang Journal: Exp Ther Med Date: 2017-03-28 Impact factor: 2.447