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IKK <alpha> and the Control of Prostate Cancer Metastasis

Michael Karin

1 Collaborator(s)

Funding source

National Cancer Institute (NIH)
This application is built upon extensive progress made during the past five years in understanding the role of IKK? and various inflammatory and immune mechanisms in the control of metastatic progression in prostate cancer (PCa) and the development of castration-resistant tumors after androgen ablation. We found that accumulation of activated IKK? in nuclei of PCa cells is required both for metastatic dissemination and development of castration resistance. IKK? exerts its nuclear effects, in part, through transcriptional activation of the Bmi1 gene, which encodes a component of Polycomb repressive complex 1 (PRC1), as well as through repression of the metastasis inhibitor maspin. Nuclear accumulation of activated IKK? was also observed in human PCa and Bmi-1 is a key regulator of PCa stem cell renewal in both humans and mice. Therefore, we will use mouse models and human clinical specimens to investigate the mechanisms through which activated IKK? accumulates in nuclei of PCa cells and how it stimulates Bmi1 transcription. Interference with these mechanisms will offer new approaches to PCa therapy, that are supported by our preliminary results, which demonstrate inhibition of prostate stem cell activation upon loss of IKK? kinase activity and that the combination of IKK? inhibition and androgen receptor blockade completely prevents castration resistance. In PCa cells, IKK? is activated by inflammatory cytokines that are produced by immune cells which are recruited into the tumors during normal progression and after androgen ablation. We found that activated myofibroblasts are the critical source of the chemokines that recruit cytokine-producing immune cells into prostate tumors under both conditions. We will therefore study the mechanisms responsible for myofibroblast activation, both in response to androgen ablation and during normal tumor progression. We will also investigate the role of myofibroblasts in metastatic progression. Correspondingly, five specific aims will be pursued: 1) Define the mechanisms through which IKK? stimulates Bmi1 transcription in collaboration with E2F transcription factors; 2) Determine whether IKK? represses the SPB5 (Maspin) gene through its effect on Bmi-1 expression; 3) Investigate the mechanisms responsible for the nuclear accumulation of activated IKK? in PCa cells and find ways to inhibit IKK? nuclear accumulation; 4) Determine the role of myofibroblasts and their origin during metastatic progression of PCa; 5) Define mechanisms that are responsible for myofibroblast activation and appearance during development of castration-resistant cancer and metastatic progression. In addition to explaining basic mechanisms that account for PCa metastasis and emergence of castration resistance, the proposed research will lead to development of new therapeutic strategies for interference with these major causes of PCa-associated morbidity and mortality.

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