Jacqueline Lutz scite author profile

There are currently no effective therapies for metastatic prostate cancer because the molecular mechanisms that underlie the metastatic spread of primary prostate cancer are unclear. Transcription factor Stat3 is constitutively active in malignant prostate epithelium, and its activation is associated with high histological grade and advanced cancer stage. Progression of prostate cancer to metastatic disease is one of the key problems in the clinical management of prostate cancer.1 This is because there are currently no effective therapies for metastatic prostate cancer, and metastatic prostate cancer is the lethal form of the disease. Identification of the molecular changes that lead to formation of distant metastasis is critical for improvement of therapeutic interventions for metastatic prostate cancer and for development of strategies to prevent primary prostate cancer from metastasizing.Transcription factor Stat3 has been implicated in the promotion of growth and progression of prostate cancer. Stat3, which is both a cytoplasmic signaling molecule and a nuclear transcription factor, belongs to the sevenmember Stat gene family of transcription factors.2 Stat3 becomes active by phosphorylation of a specific tyrosine residue in the carboxy-terminal domain by a tyrosine kinase (pY705).3 Activation of Stat3 is supplemented by phosphorylation of a specific serine residue (S727).4 After phosphorylation, Stat3 homodimerizes and translocates to the nucleus where it binds to specific Stat3 response elements of target gene promoters to regulate transcription.3 Transcription factor Stat3 is constitutively active in clinical human prostate cancer, 5-9 and activation of Stat3 has been associated with advanced stage of prostate cancer. 5,9 Moreover, several reports implicate Stat3 in promotion of prostate cancer cell proliferation and inhibition of apoptosis. 5,10,11

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Stat5 promotes metastatic behavior of human prostate cancer cells in vitro and in vivo

Gu¹,

Vogiatzi²,

Puhr³

et al. 2010

113

112

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There are no effective therapies for disseminated prostate cancer. Constitutive activation of Stat5 in prostate cancer is associated with cancer lesions of high histological grade. We have shown that Stat5 is activated in 61% of distant metastases of clinical prostate cancer. Active Stat5 increased metastases formation of prostate cancer cells in nude mice by 11-fold in an experimental metastases assay. Active Stat5 promoted migration and invasion of prostate cancer cells, and induced rearrangement of the microtubule network. Active Stat5 expression was associated with decreased cell surface E-cadherin levels, while heterotypic adhesion of prostate cancer cells to endothelial cells was stimulated by active Stat5. Activation of Stat5 and Stat5-induced binding of prostate cancer cells to endothelial cells were decreased by inhibition of Src but not of Jak2. Gene expression profiling indicated that 21% of Stat5-regulated genes in prostate cancer cells were related to metastases, while 7.9% were related to proliferation and 3.9% to apoptosis. The work presented here provides the first evidence of Stat5 involvement in the induction of metastatic behavior of human prostate cancer cells in vitro and in vivo. Stat5 may provide a therapeutic target protein for disseminated prostate cancer.

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Transcription Factor Stat3 Stimulates Metastatic Behavior of Human Prostate Cancer Cells in Vivo, whereas Stat5b Has a Preferential Role in the Promotion of Prostate Cancer Cell Viability and Tumor Growth

Dagvadorj

Lutz

et al. 2010

The American Journal of Pathology

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Identification of the molecular changes that promote viability and metastatic behavior of prostate cancer is critical for the development of improved therapeutic interventions. Stat5a/b and Stat3 are both constitutively active in locally-confined and advanced prostate cancer, and both transcription factors have been reported to be critical for the viability of prostate cancer cells. We recently showed that Stat3 promotes metastatic behavior of human prostate cancer cells not only in vitro but also in an in vivo experimental metastases model. In this work, we compare side-by-side Stat5a/b versus Stat3 in the promotion of prostate cancer cell viability, tumor growth, and induction of metastatic colonization in vivo. Inhibition of Stat5a/b induced massive death of prostate cancer cells in culture and reduced both subcutaneous and orthotopic prostate tumor growth, whereas Stat3 had a predominant role over Stat5a/b in promoting metastases formation of prostate cancer cells in vivo in nude mice. The molecular mechanisms underlying the differential biological effects induced by these two transcription factors involve largely different sets of genes regulated by Stat5a/b versus Stat3 in human prostate cancer model systems. Of the two Stat5 homologs, Stat5b was more important for supporting growth of prostate cancer cells than Stat5a. This work provides the first mechanistic comparison of the biological effects induced by transcription factors Stat5a/b versus Stat3 in prostate cancer.

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Transcription factor Stat5a/b as a therapeutic target protein for prostate cancer

Liao

Lutz

Nevalainen

2010

The International Journal of Biochemistry & Cell Biology

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Prostate cancer is the most common non-cutaneous cancer in Western males. The majority of prostate cancer fatalities are caused by development of castration-resistant growth and metastatic spread of the primary tumor. The average duration of the response of primary prostate cancer to hormonal ablation is less than 3 years, and 75% of prostate cancers in the United States progress to hormonerefractory disease. The existing pharmacological therapies for metastatic and/or hormone-refractory prostate cancer do not provide significant survival benefit. This review summarizes the importance of transcription factor Stat5 signaling in the pathogenesis of prostate cancer and discusses the molecular basis why inhibition of Stat5a/b could be used as a therapeutic strategy for prostate cancer.

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Jacqueline Lutz

Stat3 Promotes Metastatic Progression of Prostate Cancer

Stat5 promotes metastatic behavior of human prostate cancer cells in vitro and in vivo

Transcription Factor Stat3 Stimulates Metastatic Behavior of Human Prostate Cancer Cells in Vivo, whereas Stat5b Has a Preferential Role in the Promotion of Prostate Cancer Cell Viability and Tumor Growth

Transcription factor Stat5a/b as a therapeutic target protein for prostate cancer

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