Our unpublished data have demonstrated that Clusterin is overexpressed in bladder cancer and metformin, a well-known metabolism modulator specifically targets Clusterin by inhibiting migration of bladder cancer cells.
Collectively, these findings suggest that clusterin acts as a cell survival protein mediating radioresistance through the inhibition of apoptosis, and that inactivation of clusterin using AS technology might offer a novel strategy to improve the outcome of radiation therapy for patients with bladder cancer.
Collectively, these findings suggest that clusterin acts as a cell survival protein mediating radioresistance through the inhibition of apoptosis, and that inactivation of clusterin using AS technology might offer a novel strategy to improve the outcome of radiation therapy for patients with bladder cancer.
These findings suggest that combined treatment with AS clusterin ODN and Ad5CMV-p53 could be a novel strategy to inhibit bladder cancer progression, and that further additional use of a chemotherapeutic agent may substantially enhance the efficacy of this combined regimen.
These findings suggest that AS clusterin ODN may be useful for enhancing the cytotoxicity of gemcitabine in patients with bladder cancer, particularly as a novel therapeutic strategy for intravesical instillation therapy.
The objectives of this study were to determine whether antisense (AS) oligodeoxynucleotide (ODN) targeting the clusterin gene enhances apoptosis induced by cisplatin and to evaluate the usefulness of combined treatment with AS clusterin ODN and cisplatin in the inhibition of KoTCC-1 tumor growth and metastasis in a human bladder cancer KoTCC-1 model.