Abstract: The present invention relates to compositions and methods and for the diagnosis, prognosis, and treatment of prostate cancer. The invention is based upon the identification of a gene expression signature that predicts the likelihood that prostate cancer will metastasize. Provided is a method of determining whether prostate cancer in a subject will metastasize. Also provided are compositions comprising a prostate cancer-associated gene. Also provided are kits comprising a package with a prostate cancer-associated gene.

Abstract: The invention provides methods and compositions to evaluate biological samples. The methods comprise obtaining a formalin fixed paraffin embedded (FFPE) preparation of the biological sample, and detecting the presence of one or more metabolites in the FFPE preparation.

Abstract: Diagnostic assays for medically classifying cancer patients are provided. The method comprises assessing a tissue sample of the patient for the presence of a copy number gain of chromosome regions 1q23.3 and/or 1q21.2. Copy number gain of chromosome regions 1q23.3 and/or 1q21.2 is indicative of a less favorable prognosis as compared to the prognosis if there was no copy number gain in the same regions.

Abstract: Diagnostic assays for medically classifying cancer patients are provided. The method comprises assessing a tissue sample of the patient for the presence of a copy number gain of chromosome regions 1q23.3 and/or 1q21.2. Copy number gain of chromosome regions 1q23.3 and/or 1q21.2 is indicative of a less favorable prognosis as compared to the prognosis if there was no copy number gain in the same regions.

Abstract: The invention provides methods and products to identify metabolic status of Akt1 and Myc in tumors, and to treat cancer. The method comprises performing an assay to measure a profile of metabolites in a prostate tumor sample obtained from a subject, wherein the metabolites are differentially produced in prostate tumors with high Akt1 expression versus prostate tumors with high Myc expression; and comparing, with at least one processor, the profile of metabolites with an appropriate reference profile of the metabolites to assign an Akt1 and Myc metabolic status to the sample based on results of the comparison.

Abstract: The invention provides methods and products to detect the presence of unidentified high grade prostate tumors in a subject with a Gleason score 7 prostate tumor. The method comprises obtaining a biological sample from a subject in need thereof, measuring a profile of metabolites in the biological sample, wherein the metabolites are differentially expressed in Gleason score 6 versus Gleason score 8 prostate tumors, and classifying the profile of the metabolites to assign a grade to the sample based on the profile of the metabolites.

Abstract: Diagnostic assays for medically classifying cancer patients are provided. The method comprises assessing a tissue sample of the patient for the presence of a copy number gain of chromosome regions 1q23.3 and/or 1q21.2. Copy number gain of chromosome regions 1q23.3 and/or 1q21.2 is indicative of a less favorable prognosis as compared to the prognosis if there was no copy number gain in the same regions.

Abstract: Diagnostic assays for medically classifying cancer patients are provided. The method comprises assessing a tissue sample of the patient for the presence of a copy number gain of chromosome regions 1q23.3 and/or 1q21.2. Copy number gain of chromosome regions 1q23.3 and/or 1q21.2 is indicative of a less favorable prognosis as compared to the prognosis if there was no copy number gain in the same regions.

Abstract: Disclosed herein are methods for diagnosing cancer in a biological sample comprising measuring the level of a p63 gene product in the sample.

Abstract: This application describes the cloning of p63, a gene at chromosome 3q27-29, that bears homology to the tumor suppressor p53. The p63 gene encodes at least six different isotypes. p63 was detected in a variety of human and mouse tissue and demonstrates remarkably divergent activities, such as the ability to transactivate p53 reporter genes and induce apoptosis. Isotopes of p63 lacking a transactivation domain act as dominant negatives towards the transactivation by p53 and p63.