Project description:Clinical management of prostate cancer remains a significant challenge due to the lack of available tests for guiding treatment decisions. The blood Prostate-Specific Antigen (PSA) test has facilitated early detection and intervention of prostate cancer. However, blood PSA levels are less effective in distinguishing aggressive from indolent prostate cancers and other benign prostatic diseases. Thus, the development of novel approaches specific for prostate cancer that can differentiate aggressive from indolent disease remains an urgent medical need. In the current study, we evaluated urine specimens from prostate cancer patients instead of serum using liquid chromatography-tandem mass spectrometry (LC-MS/MS), with the aim of identifying effective prostate cancer biomarkers. Glycoproteins from urine samples of prostate cancer patients with different Gleason scores were characterized via solid phase extraction of N-linked glycosite-containing peptides and LC-MS/MS. In total, 2923 unique glycosite-containing peptides were identified. Comparison of urine-based glycoproteins with those identified from aggressive and non-aggressive prostate cancer tissues as well as sera from prostate cancer patients revealed that the majority of aggressive prostate cancer-associated glycoproteins were more readily detected in patient urine than serum samples. Our data collectively indicate that urine provides a highly reliable source for biomarker testing in patients with aggressive prostate cancer.
Project description:Small non-coding RNA profiling of urine exosomal total RNA from patients with or without prostate cancer were performed using Affymetrix GeneChip miRNA 4.0 to identify small non-coding RNA profile that can be used for prostate cancer diagnosis.
Project description:Small non-coding RNA profiling of urine exosomal total RNA from patients with or without prostate cancer were performed using Affymetrix miRNA Gene-Chip 4.0 to identify small non-coding RNA proflie that can be used for prostate cancer diagnosis.
Project description:Intra-individual stability of the urine miRNA transcriptome was examined by investigating longitudinal changes over time in a cohort of patients with localized prostate cancer. Using training and validation cohorts, urinary miRNA biomarkers are characterized and validated their utility to identify aggressive prostate cancer.
Project description:Intra-individual stability of the urine miRNA transcriptome was examined by investigating longitudinal changes over time in a cohort of patients with localized prostate cancer. Using training and validation cohorts, urinary miRNA biomarkers are characterized and validated their utility to identify aggressive prostate cancer.
Project description:Intra-individual stability of the urine miRNA transcriptome was examined by investigating longitudinal changes over time in a cohort of patients with localized prostate cancer. Using training and validation cohorts, urinary miRNA biomarkers are characterized and validated their utility to identify aggressive prostate cancer.
Project description:Label-free quantitative proteomics was employed to compare the protein content of extracellular vesicles isolated by various differential centrifugation-based approaches from expressed prostatic secretions in urine (EPS-urine) from men with prostate cancer. The developed optimized approach improved EV purity by depleting the high-abundance urine protein Tamm-Horsfall protein (THP) and other common contaminants and achieved relative enrichment of prostate cancer-associated EV-resident proteins.
Project description:Methylation profiling of urine samples from patients with aggressive prostate cancer and without prostate cancer. Methylated DNA was immunoprecipitated with anti-methylcytosine antibodies from genomic DNA and detected by Affymetrix CytoScanHD chips. Methylated DNA was purified by 5-mC antibodies and Affymetrix CytoScanHD arrays were performed according to the manufacturer's protocols.
Project description:Liquid biopsies offer significant potential for informing on cancer progression and therapeutic resistance via minimally invasive serial monitoring of genetic alterations. Although the cancer epigenome is a central driving force in most neoplasia, how well the tumour methylome can be monitored via liquid biopsies is relatively unknown. In this first of its kind study we made a direct comparison of two liquid biopsies: urine and blood, asking how well they represent the tumor methylome. Utilizing the Infinium Methylation EPIC BeadChip, we profiled DNA methylation in tissue, urine sediment and cell-free circulating DNA from four men with advanced stage prostate cancer. We show that both urine and plasma are viable surrogates for tumor tissue biopsies, capturing 78.63 and 62.21% of tumor-specific methylation alterations, respectively. We conclude that urine is an easily accessible and sensitive biofluid for the study of prostate cancer epigenomic alterations.
