The aim of this study is to use multiomics sequencing to explore the molecular characteristics of metastatic prostate cancer (mPCa), especially metastatic castration-resistant prostate cancer (mCRPC). At the same time, mCRPC models will be constructed, including organoids and animal models, serving as a basic and translational research platform to help identify novel drug targets for mPCa.
Although substantial progress in treatments for prostate cancer have been made in the past decades, distant metastasis and drug resistance remained a major cause of prostate cancer-related deaths. The five-year survival rate for men with mPCa was only 30% and all patients with mPCa would inevitably progress to the castration-resistant stage with limited therapeutic chance. In China, the current situation is more worrying, with rapidly increasing PCa incidence and higher proportion of mPCa diagnosed compared with the Western nations (\~30% vs \~5%). Multiomics sequencing provides a promising strategy to discover the underlying molecular basis driving metastasis and resistance and identify the new treatment strategies for patients with mCRPC. The candidate drug target revealed by the multiomics sequencing could be further examined in the organoid and animal models, facilitating the clinical application from basic discovery. This study can establish a mCRPC research system to find the molecular mechanism and potential intervention targets of mCRPC, thereby paving the way for the discovery of new treatments for mCRPC patients.
Study Type
OBSERVATIONAL
Enrollment
100
Tissue will be derived from patients during a standard of care procedure
Fudan University Shanghai Cancer Center
Shanghai, Shanghai Municipality, China
RECRUITINGMultiple omics features
Multi-omics information including genetic profiling results, transcriptional profiling results and epigenomic profiling results will be collected and analyzed.
Time frame: 3 years
Organoids successfully generated from metastatic prostate cancer
Successful isolation of prostate cancer organoids from surgical specimens of patients diagnosed with metastatic prostate cancer. We will calculate the culture efficiency and total number of organoids generated in our center.
Time frame: 3 years
Developing of biomarkers related to cancer metastasis and drug resistant
To search for biomarkers related to tumor metastasis and resistance by performing multi-omics analysis to surgery specimens derived from patients with metastatic prostate cancer.
Time frame: 3 years
Animal models successfully generated from patient derived prostate cancer organoids
Prostate cancer organoids with clarified characteristics will be transplanted into mice to establish PDOX models.
Time frame: 3 years
Response of the prostate cancer organoids to the selected anti-cancer compounds
Organoid that are successfully cultured and characteristic clarified will be treated with the selected compounds to test their anti-cancer activity.
Time frame: 3 years
Response of the PDOX models to the selected anti-cancer compounds
PDOX models that successfully established will be treated with the selected compounds to test their anti-cancer activity.
Time frame: 3 years
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