p53 represses androgen-induced transactivation of prostate-specific antigen by disrupting hAR amino- to carboxyl-terminal interaction.

Prostate-specific antigen (PSA) is highly overexpressed in prostate cancer. One important regulator of PSA expression is the androgen receptor (AR), the nuclear receptor that mediates the biological actions of androgens. AR is able to up-regulate PSA expression by directly binding and activating the promoter of this gene. We provide evidence here that that this AR activity is repressed by the tumor suppressor protein p53. p53 appears to exert its inhibition of human AR (hAR) by disrupting its amino- to carboxyl-terminal (N-to-C) interaction, which is thought to be responsible for the homodimerization of this receptor. Consistent with this, p53 is also able to block hAR DNA binding in vitro. Our previous data have shown that c-Jun can mediate hAR transactivation, and this appears to result from a positive effect on hAR N-to-C interaction and DNA binding. Interestingly, c-Jun is able to relieve the negative effects of p53 on hAR transactivation, N-to-C interaction, and DNA binding, demonstrating antagonistic activities of these two proteins. Importantly, a p53 mutation found in metastatic prostate cancer severely disrupts the p53 negative activity on hAR, suggesting that the inability of p53 mutants to down-regulate hAR is, in part, responsible for the metastatic phenotype.

A selective peroxisome proliferator-activated receptor delta agonist promotes reverse cholesterol transport.

The peroxisome proliferator-activated receptors (PPARs) are dietary lipid sensors that regulate fatty acid and carbohydrate metabolism. The hypolipidemic effects of the fibrate drugs and the antidiabetic effects of the glitazone drugs in humans are due to activation of the alpha (NR1C1) and gamma (NR1C3) subtypes, respectively. By contrast, the therapeutic potential of the delta (NR1C2) subtype is unknown, due in part to the lack of selective ligands. We have used combinatorial chemistry and structure-based drug design to develop a potent and subtype-selective PPARdelta agonist, GW501516. In macrophages, fibroblasts, and intestinal cells, GW501516 increases expression of the reverse cholesterol transporter ATP-binding cassette A1 and induces apolipoprotein A1-specific cholesterol efflux. When dosed to insulin-resistant middle-aged obese rhesus monkeys, GW501516 causes a dramatic dose-dependent rise in serum high density lipoprotein cholesterol while lowering the levels of small-dense low density lipoprotein, fasting triglycerides, and fasting insulin. Our results suggest that PPARdelta agonists may be effective drugs to increase reverse cholesterol transport and decrease cardiovascular disease associated with the metabolic syndrome X.

The pregnane X receptor: a promiscuous xenobiotic receptor that has diverged during evolution.

Transcription of genes encoding cytochrome P450 3A (CYP3A) monooxygenases is induced by a variety of xenobiotics and natural steroids. There are marked differences in the compounds that induce CYP3A gene expression between species. Recently, the mouse and human pregnane X receptor (PXR) were shown to be activated by compounds that induce CYP3A expression. However, most studies of CYP3A regulation have been performed using rabbit and rat hepatocytes. Here, we report the cloning and characterization of PXR from these two species. PXR is remarkably divergent between species, with the rabbit, rat, and human receptors sharing only approximately 80% amino acid identity in their ligand-binding domains. This sequence divergence is reflected by marked pharmacological differences in PXR activation profiles. For example, the macrolide antibiotic rifampicin, the antidiabetic drug troglitazone, and the hypocholesterolemic drug SR12813 are efficacious activators of the human and rabbit PXR but have little activity on the rat and mouse PXR. Conversely, pregnane 16alpha-carbonitrile is a more potent activator of the rat and mouse PXR than the human and rabbit receptor. The activities of xenobiotics in PXR activation assays correlate well with their ability to induce CYP3A expression in primary hepatocytes. Through the use of a novel scintillation proximity binding assay, we demonstrate that many of the compounds that induce CYP3A expression bind directly to human PXR. These data establish PXR as a promiscuous xenobiotic receptor that has diverged during evolution.

The dihedral symmetry of the p53 tetramerization domain mandates a conformational switch upon DNA binding.

The p53 tumor suppressor forms stable tetramers, whose DNA binding activity is allosterically regulated. The tetramerization domain is contained within the C-terminus (residues 323-355) and its three-dimensional structure exhibits dihedral symmetry, such that a p53 tetramer can be considered a dimer of dimers. Under conditions where monomeric p53 fails to bind DNA, we studied the effects of p53 C-terminal mutations on DNA binding. Residues 322-355 were sufficient to drive DNA binding of p53 as a tetramer. Within this region residues predicted by the three-dimensional structure to stabilize tetramerization, such as Arg337 and Phe341, were critical for DNA binding. Furthermore, substitution of Leu344 caused p53 to dissociate into DNA binding-competent dimers, consistent with the location of this residue at the dimer-dimer interface. The p53 DNA site contains two inverted repeats juxtaposed to a second pair of inverted repeats. Thus, the four repeats exhibit cyclic-translation symmetry and cannot be recognized simultaneously by four dihedrally symmetric p53 DNA binding domains. The discrepancy may be resolved by flexible linkers between the p53 DNA binding and tetramerization domains. When these linkers were deleted p53 exhibited novel DNA binding properties consistent with an inability to recognize four contiguous DNA repeats. Allosteric regulation of p53 DNA binding may involve repositioning the DNA binding domains from a dihedrally symmetric state to a DNA-bound asymmetric state.

Communication, conflict, and psychological distance in nondistressed, clinic, and divorcing couples.

This study compared communication patterns and conflicts over psychological distance in 25 nondistressed couples, 15 clinic couples, and 22 divorcing couples. Data consisted of questionnaire reports completed independently by husbands and wives. The two distressed groups, compared with nondistressed couples, had less mutual constructive communication, more avoidance of communication, more demand/withdraw communication, and more conflict over psychological distance in their relationships. In addition, the divorcing group had less mutual constructive communication than the clinic group and evidenced a trend for more conflict over psychological distance than the clinic group. Consistent with past research, wife demand/husband withdraw communication was more likely across all groups than husband demand/wife withdraw communication. Results are discussed in terms of skills deficits and incompatability models of marital discord.