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Description
The nuclear factor kappa beta (NF-kB), a redox-sensitive transcription factor, is well established as a
regulator of genes coding for both proapoptosis and prosurvival proteins. It has been shown that hormoneindependent
prostate cancer has a high constitutive level of NF-kB and activation of NF-kB by cancer
therapeutic agents can blunt the activity of these agents to cause cancer cell death. The goal of this project
is to gain insight into an NF-kB mediated mechanism leading to intrinsic radiation resistance and to identify
novel approaches that can be used to improve the treatment of prostate cancer. Our initial data
demonstrate that androgen-independent prostate cancer has high levels of selected members of the NF-kB
family and its prosurvival NF-kB target gene products including the primary antioxidant enzyme, manganese
superoxide dismutase, and the antiapoptotic protein, BclXL. We also found that radiation induced activation
of NF-kB in a two-wave pattern. We hypothesize that tumor cells with high levels of constitutive NF-kB will
be sensitive to inhibition of the NF-kB mediated cytoprotective pathway and modulation of this pathway can
improve the radiation response of aggressive prostate cancer. Parental PC-3 and its NF-kB mutant derived
cell lines will be used as models for androgen-independent prostate cancer cells. Parental LNCaP and its
corresponding derivatives will be used as models for androgen-dependent prostate cancer cells. Well
characterized PC-3 derived as well as LNCaP derived prostate cancer cell lines will be studied in vitro and
in vivo. Five-weeks-old male athymic nude mice will be used as hosts of human prostate cancer cells by
orthotopic implantation in the prostate glands. Specific aim 1 is designed to identify specific members of the
NF-kB family that play an important role in high intrinsic radioresistance of aggressive prostate cancer cells.
Specific aim 2 is designed to test the concept that selective modulation of NF-kB or redox-based
intervention can be used to enhance radiation sensitivity. Specific aim 3 is designed to validate the results
from Specific aim 2 in an experimental therapeutic setting.
Accomplishment of this study will enhance our understanding of the mechanisms by which members of the
NF-kB family participate in cell survival. This information can serve as a rationale for the development of
selective approaches that might eventually translate into significant clinical benefit.
Status | Finished |
---|---|
Effective start/end date | 8/1/07 → 11/30/12 |
Funding
- National Cancer Institute: $1,265,634.00
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Projects
- 1 Finished