Profiling of differential expression of messenger RNA in normal, benign, and metastatic prostate cell lines.

To understand the phenotypic changes associated with prostate cancer development and metastasis, we investigated differential gene expression in primary and established prostate cell lines used as models. We have used a differential display of messenger RNA (DDRT-PCR) technique using 168 primer combinations and total RNA from BPH-1, LNCaP, and PC3 cells to identify filter-based cDNA microarrays containing 18,376 nonredundant clones of genes and expressed sequence tags (EST) using mRNA from PrEC and MDAPCa2a cells to identify genes that are differentially expressed in normal, benign, and cancerous prostate cell lines. Twenty-five cDNA with a significant difference in expression of 76 candidate cDNA, as identified by DDRT-PCR and confirmed by slot-blot analysis, were selected for sequence analysis. Of these, 14 cDNA were further confirmed by Northern blot analysis. Analysis of the cDNA microarray data showed that a variety of genes/EST were up- or down-regulated in the metastatic prostate tumor cells and a majority of these genes encode cytoskeletal proteins and proteins with regulatory function. Expression profile of two EST was confirmed by reverse transcription polymerase chain reaction. We also have identified a number of genes exhibiting differential expression in prostate cancer cells, which were not known earlier to be involved in prostate cancer. This report provides a comparative analysis of differential gene expression between normal prostatic epithelial cells and prostate cancer cells, and a foundation to facilitate in-depth studies on the mechanism of prostate cancer development and metastasis.

A real-time RT-PCR method to detect viable Giardia lamblia cysts in environmental waters.

Currently, USEPA Method 1623 is the standard assay used for simultaneous detection of Giardia cysts and Cryptosporidium oocysts in various water matrices. However, the method is unable to distinguish between species, genotype, or to assess viability. Therefore, the objective of the present study was to address the shortcomings of USEPA Method 1623 by developing a novel molecular-based method that can assess viability of Giardia cysts in environmental waters and identify genotypes that pose a human health threat (assemblage groups A and B). Primers and TaqMan(®) probes were designed to target the beta-giardin gene in order to discriminate among species and assemblages. Viability was determined by detection of de-novo mRNA synthesis after heat induction. The beta-giardin primer/probe sets were able to detect and differentiate between Giardia lamblia assemblages A and B, and did not detect Giardia muris (mouse species) or G. lamblia assemblages C, D, E and F (non-human), with the exception of Probe A which did detect G. lamblia assemblage F DNA. Additionally, DNA or cDNA of other waterborne organisms were not detected, suggesting that the method is specific to Giardia assemblages. Assay applicability was demonstrated by detection of viable G. lamblia cysts in spiked (assemblage B) and unspiked (assemblage A and B) reclaimed water samples.

Down-regulation of Cdc6, a cell cycle regulatory gene, in prostate cancer.

CDC6 plays a critical role in regulation of the onset of DNA replication in eukaryotic cells. We have found that Cdc6 expression is down-regulated in prostate cancer as detected by semiquantitative reverse transcriptase-PCR of prostate cell lines and laser-captured microdissected prostate tissues. This result was substantiated by immunohistochemical analysis of paraffin-embedded tissue sections and immunoblot analysis of benign (BPH-1) and adenocarcinomatous prostatic cells. Furthermore, a 100-fold reduction in the transcription efficiency of the Cdc6 promoter-luciferase construct was noted in the metastatic PC3 cells compared with that in BPH-1 cells. Concentration of the E2F and Oct1 transcription factors that have putative binding sites in the Cdc6 promoter was substantially low in PC3 cells compared with BPH cells. Mutagenesis of the two E2F binding sites on the Cdc6 promoter resulted in increased promoter activity in PC3 cells owing to elimination of the negative regulation by pRb.E2F complex but not to the level of that obtained in BPH cells. We conclude that an altered interaction of transcription factors may be responsible for the down-regulation of Cdc6 transcription in PC3 cells. Our study suggests a potential use of the lack of CDC6 expression as an index of prostate cancer development.