We screened human prostate cancer tissues for the presence of somatic mutations in the hormone binding domain of the androgen receptor (AR) gene. Exons E-H were amplified from genomic DNA using the polymerase chain reaction and analyzed by denaturing gradient gel electrophoresis (DGGE), which separates DNA fragments that differ by only a single base. We detected a mutation in exon E of the hormone binding domain in 1 of 26 specimens of untreated organ-confined stage B prostate cancer. The mutation was not detectable in peripheral blood lymphocyte DNA. Lymphocyte DNA (wild-type AR) migrated in DGGE as a single band. The tumor DNA migrated in DGGE as four bands, consistent with the presence of cells with mutant AR plus cells with wild-type AR and indicating that the tumor contained a somatic mutation. To our knowledge, a somatic AR gene mutation has not been reported previously. Sequencing revealed a G --A substitution in codon 730, changing valine to methionine. Codon 730 is in a region highly conserved among all steroid receptors. The abundance of the mutated fragment (about 50% of the DNA in the specimen) indicates its presence in cells with a growth advantage. A somatic mutation could be detected by DGGE if it represented at least 10% of the sample. Failure to detect mutations in other specimens analyzed may be due to this limit of sensitivity, the presence of mutations in other parts of the AR, or a low frequency of mutations in early stage disease.Prostate cancer is the most frequently diagnosed cancer and the second leading cause of cancer deaths in men in the U.S.(1). Recognition that androgen is required for the development of prostate cancer (2) and its growth (3) has been the basis for continuing interest in the role of the androgen receptor (AR) in prostate cancer (1,(4)(5)(6). The AR is a member of the superfamily of genes that code for the steroid and thyroid hormone receptor family of ligand-dependent nuclear transcription factors, all of which have an N-terminal domain that affects transcription efficiency, a central DNA
The ability of a short GGC repeat to enhance androgen action provides a biologically plausible mechanism to account for reports that a short GGC repeat in the AR gene is a risk factor for prostate cancer.
A longstanding goal has been to determine whether androgen receptor (AR) levels could be used to predict the clinical response of metastatic prostate cancer to androgen withdrawal therapy. A major limitation of previous studies was the use of homogenized tissue, which yields an average AR content for all cells. By AR immunohistochemical study using an antibody specific for AR the authors assessed nuclear AR content specifically in the malignant epithelial cells of prostate needle biopsy specimens of 17 patients with Stage D prostate cancer. The authors found that prostate cancer contains AR-positive and AR-negative malignant cells before androgen withdrawal therapy, but the percentage of AR-positive cells did not predict the time to tumor progression after therapy. There was no significant correlation between the percentage of AR-positive malignant cells and the time to tumor progression. When patients were divided into two groups based on the median time to progression, the percentage of AR-positive nuclei was not significantly different in poor responders versus good responders. When patients were divided into two groups based on the median percentage of receptor-positive nuclei, Kaplan-Meier estimates of the progression-free interval revealed no significant difference between the group of patients with AR-poor tumors and patients with AR-rich tumors. Potential explanations for these results are discussed. The authors conclude that the percentage of AR-positive nuclei is not a sufficient criterion to predict tumor behavior.
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