p38 MAP kinase modulates Smad-dependent changes in human prostate cell adhesion.

Transforming growth factor beta (TGFbeta) regulates cell adhesion, proliferation, and differentiation in a variety of cells. Smad proteins are receptor-activated transcription factors that translocate to the nucleus in response to TGFbeta. We demonstrate here that TGFbeta increases cell adhesion in metastatic PC3-M prostate cancer cells. TGFbeta treatment of PC3-M cells leads to nuclear translocation of R-Smad proteins. We show that Smad proteins are necessary, but not sufficient, for TGFbeta-mediated cell adhesion. After showing that TGFbeta upregulated p38 MAP kinase activity in PC3-M cells, we show that inhibition of p38 MAP kinase partially blocked TGFbeta-mediated increase in cell adhesion, as well as nuclear translocation of Smad3. Finally, we show that Smad3 is phosphorylated by p38 MAP kinase in vitro. These findings implicate crosstalk between the MAP kinase and Smad signaling pathways in TGFbeta's regulation of cell adhesion in human prostate cells. This represents a mechanism by which the pleiotropic effects of TGFbeta may be channeled to modulate cell adhesion.

Phase I pharmacokinetic and pharmacodynamic analysis of unconjugated soy isoflavones administered to individuals with cancer.

Preclinical studies suggest that the isoflavone genistein may have prostate cancer chemopreventive activity. Genistein has been shown to alter cellular levels of protein-tyrosine phosphorylation and is present at high levels in soy. This study was designed to measure the pharmacokinetic parameters of two different preparations of unconjugated soy isoflavones, PTI G-2535 and PTI G-4660 (which contain 43% and 90% genistein, respectively), in human subjects with cancer, to evaluate toxicity and obtain pilot data on in vivo effects on protein-tyrosine phosphorylation. Cohorts of four patients were given single doses of each preparation; each dose was separated by 1 week. Sequential cohorts received genistein at 2, 4, or 8 mg/kg orally. Pharmacokinetic sampling was performed after each dose, and tyrosine phosphorylation was measured in proteins extracted from peripheral blood mononuclear cells. One of 13 patients treated developed a treatment-related rash. No other toxicities were observed. Maximal plasma concentrations (C(max)) ranged between 4.3 and 16.3 micro M for total genistein and 0.066 and 0.17 micro M for free genistein. For PTI G-2535 and PTI G-4660, half-life was 15.03 and 22.41 h, respectively, and volume of distribution was 189.9 and 653.8 liters, respectively, and there was a trend toward higher area under the concentration curve for PTI G-2535 (P = 0.07 at the 8 mg/kg dose). Treatment-related increases in tyrosine phosphorylation were observed in peripheral blood mononuclear cells. Oral administration of soy isoflavones gives plasma concentrations of genistein that have been associated with antimetastatic activity in vitro.

A one-arm homologous recombination approach for developing nuclear receptor assays in somatic cells.

Drug discovery is in need of technologies that enable investigators to develop cell-based assays that accurately reflect the functional consequence of small molecule intervention on biological processes. Here, we describe a strategy that uses both one-arm homologous recombination and the beta-lactamase (BLA) reporter system, a sensitive and robust transcriptional reporter for gene activation. We demonstrate that this powerful approach can be utilized for developing cell-based assays for the glucocorticoid receptor (GR) and mineralocorticoid receptor (MR) in HEK293 somatic cells. Specifically, one-arm homologous recombination was used to introduce the GAL4 DNA-binding domain (GAL4DBD) in the GR and MR genomic loci such that a chimeric GAL4DBD-GR (ligand-binding domain) [GAL4DBD-GR(LBD)] and GAL4DBD-MR(LBD) transcript is produced from the strong CMV promoter in HEK293 cells previously stably transfected with the UAS(GAL4)-BLA reporter construct. Dexamethasone- and aldosterone-responding BLA-positive cells were isolated by fluorescence-activated cell sorting, and then further expanded into separate cell lines. The sensitivity and robustness of the resulting GR and MR assays are demonstrated by the fact that the addition of dexamethasone and aldosterone to the two transgenic clonal cell lines for 16 h results in high Z' values (>0.8) and EC(50) values of 1 and 0.3 nM, respectively. These assays illustrate the flexibility of this technology to generate high-performance cellular assays for nuclear receptor targets without the need for target-specific cDNA.