Project description:The objective of this study was to determine whether prostate cancer-associated miRNAs are present in seminal fluid and, if so, evaluate their diagnostic potential. Small RNA sequencing was used to profile and compare miRNAs in the non-sperm cellular fraction of seminal fluid from men with biopsy-proven cancer (one pooled sample from 6 men) and men with elevated serum PSA but negative biopsy results (one pooled sample from 6 men).

Project description:Prostate cancer (PCa) is one of the most prevalent cancer types in men worldwide. However, the main diagnostic tests available for PCa have limitations and need biopsy for histopathological confirmation of the disease. The prostate-specific antigen (PSA) is the main biomarker used for PCa early detection, but an elevated serum concentration is not cancer-specific. Therefore, there is a need for discovery of new non-invasive biomarkers that can accurately diagnose PCa. Here, we used trichloroacetic acid-induced protein precipitation and liquid chromatography-mass spectrometry to profile endogenous peptides in urine samples from patients with PCa (n = 33), benign prostatic hyperplasia (n = 25), and healthy individuals (n = 28). Receiver operating characteristic (ROC) curves were performed to evaluate the diagnostic performance of urinary peptides. In addition, proteasix tool was used for in silico prediction of protease cleavage sites. We found five urinary peptides derived from uromodulin significantly altered between the study groups, all of which were less abundant in the PCa group. In addition, urinary peptides outperformed PSA in discriminating between malignant and benign prostate conditions (AUC = 0.847), showing high sensitivity (81.82%) and specificity (88%). Overall, our study allowed the identification of urinary peptides with potential for use as non-invasive biomarkers in PCa diagnosis.

Project description:A diagnostic non-invasive biomarker test for prostate cancer at an early stage, with high sensitivity and specificity, would improve diagnostic decision making. Extracellular RNAs present in seminal plasma might contain biomarker potential for the accurate detection of clinically significant prostate cancer. So far, the extracellular messenger RNA (mRNA) profile of seminal plasma has not been interrogated for its biomarker potential in the context of prostate cancer. Here, we investigate the mRNA transcriptome in seminal plasma samples obtained from prostate cancer patients (n=25), patients with benign prostate hyperplasia (n=26) and individuals without prostatic disease (n=6). Seminal plasma harbors a complex mRNA repertoire that reflects prostate as its tissue of origin. The endogenous RNA content is higher in the prostate cancer samples compared to the control samples. Prostate cancer antigen 3 (PCA3), a long non-coding RNA with prostate cancer-specific overexpression, and ATP-binding cassette transporter 1 (ABCA1), known to be involved in the prostate cancer pathogenesis, were more abundant in the prostate cancer group. In addition, twelve high confidence fusion transcripts could be detected in prostate cancer samples, including the bona-fide prostate cancer fusion transcript TMPRSS2-ERG. Our findings provide proof-of-principle that the extracellular transcriptome of seminal plasma can reveal information of an underlying prostate cancer.

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:Prostate cancer (PCa) is one of the most prevalent cancers among men and the fifth leading cause of cancer-related death in men. Currently, PCa suspicion is based on abnormal digital rectal examination and/or raised PSA serum levels, with prostate needle biopsy being required for a definitive diagnosis. Histopathological classification of tumours based on GS grading, cancer staging and PSA levels are used to predict the indolent or aggressive progression of the tumour as well as the likelihood of disease recurrence. These diagnosis and prognosis tools for PCa have revealed limited usefulness, especially PSA testing, which despite organ-specificity is not cancer-specific, being associated with low specificity. In this vein, new markers have been proposed in order to increase the accuracy of PCa detection, most of them proteins. Despite the significant efforts that have been undertaken for discovering other biomarkers for PCa management, few were translated into clinical practice. The simple and non-invasive nature of urine collection along with its proteome stability and storing many secreted proteins of prostate origin, makes the identification of PCa urinary biomarkers an attractive approach. With this in mind, we aimed to compare the urinary proteome profile of PCa patients with non-cancer patients in order to identify non-invasive candidate biomarkers for PCa prediction. To fulfil this task, we followed a shotgun LC-MS/MS approach using an Orbitrap instrument. A combination of two different software packages, MaxQuant and Proteome Discover was used to increase the robustness of analysis and enhance the search for new biomarkers. Proteins quantification was based on a label-free quantification approach (false discovery rate (FDR) 1%). The present dataset was used to disclosure potential markers in PCa management.

Project description:Prostate cancer is the third most frequent cancer in men worldwide, with a notable increase in prevalence over the last two decades. The PSA is the only well-established protein biomarker for prostate cancer diagnosis, staging, and sur-veillance. It frequently leads to inaccurate diagnosis and overtreatment since it is an organ-specific biomarker rather than a tumour-specific biomarker. As a result, one of the primary goals of prostate cancer proteome research is to iden-tify novel biomarkers that can be used with or instead of PSA, particularly in non-invasive blood samples. Thousands of peptides or assays were detected in blood samples from patients with low to high-grade prostate cancer and healthy individuals, allowing data processing of sequential window acquisition of all theoretical mass spectra (SWATH-MS). By assisting in the detection of prostate cancer biomarkers in blood samples, this useful resource will improve our un-derstanding of the role of proteomics in prostate cancer diagnosis and risk assessment.

Project description:Purpose: PCa is the second most commonly diagnosed malignancy in men. PCa Diagnosis are based on biopsy sampling that is an invasive, expensive procedure and does not accurately represent multifocal disease. It is desirable to have an easily accessible, minimally invasive way to accurately determine the molecular signature of patient’s tumor that can aid in diagnosis and risk stratification. Methods:we enrolled a total of 70 patients underwent 12-core transrectal ultrasound (TRUS) biopsy of which 48% had cancer in the diagnosis. The mean age at diagnosis was 67.15 (IR 55/75), the mean PSA (ng/ml) at diagnosis was 7.8 (IR 4.1/13.4) and the mean TRUS Volume (ml) was 53.5 (IR 29/86). The cancer biopsy presented 73.1% of positive core. Among all cancer patients, 57% showed a High grade of cancer status (Grade 3). Controls are patients with Benign Prostate Hyperplasia (BPH). MicroRNA-expression profiling (NGS analysis) was performed to identify tumor-related microRNAs (miRs) and determine their association with clinicopathological characteristics. Results: The expression of miRs -4732-3p, let7a, 26b-5p, 98-5p, 30c-5p and 21-5p may identified Prostate Cancer in plasma samples. Higher expression of mir-4732-3p is associated with a high grade tumor Conclusions: miRs signature discriminate Prostate cancer in plasma better to PSA values and is associated with high grade tumor status

Project description:Background: Early detection of prostate cancer (PCa) is limited by the lack of accurate non-invasive biomarkers easily evaluable in men within a screening context. Prostate-specific antigene (PSA) measurement leads to high percentages of both false positives and false negatives. In the era of liquid biopsies, we propose to combine PSA dosage with the evaluation of circulating microRNAs (miRs), to discriminate between men harbouring or not PCa. Methods: miR profiling of plasma samples from 60 men with PCa, 51 with benign prostatic hyperplasia (BPH) and 27 healthy donors (HD) was performed using microarrays. Univariate analysis (linear models with an empirical Bayes approach) and multivariate penalized logistic regression models were applied to highlight miRs and clinical variables associated with the presence of malignant disease, and were combined in a classification score. Finally, the developed score was tested on an independent dataset of 242 plasma samples (68 PCa, 8 premalignant lesions, 93 BPH, 73 HD), where miR expression was evaluated by RT-qPCR. Results: Out of 2006 miRs analyzed, a linear combination of miR-103a-3p and let-7a-5p with PSA defined our score. A classification rule based on this score allowed reclassification of samples with accuracy (0.61), sensitivity (0.87), specificity (0.35) and AUC (0.68) higher than those obtained by PSA alone. On the validation set, the same classification rule still performed better than PSA alone in terms of specificity (0.57 versus 0.55) and AUC (0.76 versus 0.74), allowing correct reclassification of all but one tumors not detected by PSA and 33% of BPH with PSA in the 4-16 ng/ml range. Conclusion: The combination of two circulating miRs with PSA could be an interesting biomarker to detect the presence of PCa (even when PSA levels are below the standard cut-off of 4 ng/ml) and the absence of PCa in an important fraction of men with high PSA, who may avoid unnecessary biopsies.

Project description:Prostate cancer is the second most common cancer in men and affects 1 in 9 men in the United States. Early screening for prostate cancer often involves monitoring levels of prostate-specific antigen (PSA) and performing digital rectal exams. However, a prostate biopsy is always required for definitive cancer diagnosis. The Early Detection Research Network (EDRN) is a consortium within the National Cancer Institute aimed at improving screening approaches and early detection of cancers. As part of this effort, the Weill Cornell EDRN Prostate Cancer has collected and biobanked specimens from men undergoing a prostate biopsy between 2008 and 2017. In this report, we describe blood metabolomics measurements for a subset of this population. The dataset includes detailed clinical and prospective records for 580 patients who underwent prostate biopsy, 287 of which were subsequentially diagnosed with prostate cancer, combined with profiling of 1,482 metabolites from plasma samples collected at the time of biopsy. We expect this dataset to provide a valuable resource for scientists investigating prostate cancer metabolism.

Project description:To identify prostate cancer-specific gene expression, we have employed whole cDNA microarray expression profiling between benign prostate hypertrophy and prostate cancer. We performed needle biopsy of patients with prostatic hyperplasia who were suspected as prostate cancer for minor high level (4.0-10 ng/ml). As a result of needle biopsy, we used the tissue of patients with prostatic hyperplasia that prostate cancer was denied for cDNA microarry analysis. Furthermore, we also performed needle biopsy of patients that prostate cancer should have been strongly suspected because of high PSA. Needle biopsies were performed after we obtained informed consent from patients with the document approved from the Graduate School of Medical Science, Kanazawa University.