Volume 9, Number 4Review ArticlesNewer Potential Biomarkers in Prostate CancerDiagnostic UpdatePaul H LangeJonathan L WrightProstate-specific antigen (PSA) screening has led to a significant rise in the number of men diagnosed with prostate cancer and an associated increase in biopsies performed. Despite its limitations, including a positive predictive value of only 25%-40%, PSA remains the only generally accepted biomarker for prostate cancer. There is a need for better tools to not only identify men with prostate cancer, but also to recognize those with potentially lethal disease who will benefit from intervention. A great deal of work has been done worldwide to improve our knowledge of the genetics behind prostate cancer and the specificity of PSA by developing assays for different PSA isoforms. Common genetic alterations in prostate cancer patients have been identified, including CpG hypermethylation of GSPT1 and TMPRSS2:ERG gene fusion. Serum and urine detection of RNA biomarkers (eg, PCA3) and prostate cancer tissue protein antibodies (eg, EPCA) are being evaluated for detection and prognostic tools. This article reviews some of the promising developments in biomarkers. [Rev Urol. 2007;9(4):207-213]Prostate-specific antigenPCA3Alpha-methylacyl-CoA racemaseAutoantibody arraysEpigenetic markersGene fusion proteinsHuman kallikreinsPSA isoformsRNA biomarkers
Volume 10, Number 1Review ArticlesClinical Utility of Prostate Carcinoma Molecular Diagnostic TestsDiagnostic UpdateScott B ShappellInstead of relying on serum prostate-specific antigen (PSA) to identify patients for prostate biopsy, new laboratory tests are needed that have improved specificity for prostate carcinoma (CaP), allow accurate classification of clinically insignificant CaPs, allow for detection of clinically significant CaP in patients without elevated serum PSA, and allow for identification of aggressive forms of CaP, which may warrant adjunctive or even molecularly targeted therapy in the future. Over the last several years, highthroughput gene expression profiling and proteinomics have led to the identification of genes and proteins that are specifically overexpressed in CaP. Molecular diagnostic techniques readily translated to the clinical laboratory have been incorporated into the development of new tests based on these novel molecular alterations in CaP. Some of these tests already have well-documented clinical utility, such as in facilitating prostate biopsy decisions, and are routinely available. The current review focuses on the biological, clinical, and laboratory aspects of the most promising of these current and nearfuture molecular CaP tests. [Rev Urol. 2008;10(1):44-69]Molecular diagnosticsProstate carcinomaProstate cancer antigen 3Alpha-methylacyl-CoA racemaseEarly prostate cancer antigenTransmembrane protease,serine 2ERGDNARNA