Furthermore, microarray analysis showed that a group of genes may be associated with the development of prostate cancer after NAC1 knockdown, including interferon-β (IFNβ), which is reported to be involved in osteoclastogenesis, an important factor affecting bone metastasis.
Both IL-1β and IFNβ may be new biomarkers to distinguish high-risk/low-risk patients with prostate cancer, and to select appropriate therapeutic approaches.
TLR7 agonists increased both the gene and protein expression of TLR7 and promoted production of proinflammatory cytokines/chemokines and IFN-β gene expression in prostate cancer cell lines.
Taken together, our data indicated that forced expression of human IFN-beta in human prostate cancer cells significantly inhibited their prostatic growth, which correlated with downregulation of angiogenic molecules and suggested that adenoviral vector-mediated IFN-beta gene therapy could be an effective approach for the management of human prostate cancer.
Efficacy of adenovirus-mediated IFN-beta gene therapy against orthotopic xenografts of human prostate cancer was tested in macrophage-compromised nude mice.
These data suggest that intratumoral delivery of the IFN-beta gene with adenoviral vectors could be an effective therapy for prostate cancer and that tumor suppression by AdIFN-beta correlated with up-regulation of iNOS and down-regulation of angiogenesis.