The Sonic hedgehog (SHH)-signalling pathway mediates epithelial-mesenchymal interactions in several tissues during development and disease, and we have investigated its role in rat ventral prostate (VP) development. We have demonstrated that Shh and Ptc expression correlates with growth and development of the prostate and that their expression is not regulated by androgens in the VP. Prostatic budding was induced in response to testosterone in Shh null mouse urogenital sinus (UGS) explants grown in vitro and in rat UGS explants cultured with cyclopamine, suggesting that SHH-signalling is not critical for prostatic induction. SHH-signalling was disrupted at later stages of VP development (in vitro), resulting in a reduction in organ size, an increase in ductal tip number, and reduced proliferation of ductal tip epithelia. The addition of recombinant SHH to VPs grown in vitro caused a decrease in ductal tip number and expansion of the mesenchyme. In the presence of testosterone, inhibition of SHH-signalling accelerated the canalisation of prostatic epithelial ducts and resulted in ducts that showed morphological similarities to cribiform prostatic intraepithelial neoplasia (PIN). The epithelia of these ducts also demonstrated precocious and aberrant differentiation, when examined by immunohistochemistry for p63 and cytokeratin 14. In conclusion, we show that SHH-signalling is not essential for prostatic induction, but is important for prostatic growth, branching, and proliferation, and that androgen-stimulated growth in the absence of signalling from the SHH pathway results in aberrant epithelial differentiation.
The hypothesis that variability in metoprolol metabolism stereoselectivity is related to debrisoquin oxidation phenotype was tested in six extensive (EM) and six poor (PM) debrisoquin metabolizers. In EM, plasma AUCs for (S)-metoprolol were 35% higher than for (R)-metoprolol, whereas in PM, AUCs for (S)-metoprolol were lower than for (R)-metoprolol. AUCs for total metoprolol correlated with the ratio of (S)- to (R)-metoprolol AUC. The renal clearance of metoprolol was also stereoselective but to the same extent in both EM and PM. Findings suggest that the enzyme system responsible for polymorphic oxidation of the debrisoquin-type is stereoselective. The relation between log total metoprolol plasma concentration and response (beta-blockade) was shifted to the right in PM relative to EM, which is compatible with a difference in pharmacologic activity of metoprolol enantiomers. Kinetic predictions based on total drug measurements will tend to overestimate dynamic differences between EM and PM, but the magnitude of the error is relatively small, and, in absolute terms, there is a large difference in pharmacologic activity between the phenotypes (beta-blockade at 24 hr: EM = 5.3 +/- 5.6%; PM = 18.9 +/- 3.8%).
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