Results are reported as mean difference in relative multiples of change in mRNA expression 6 SEM

mmon feature for both biomacromolecules and small-molecules in nature and in our daily life. Biomacromolecules have the potential to stereoselectively recognize and dispose the ligands. For example, it has been shown that S-verapamil is significantly different from R-verapamil in plasma protein binding and 11885967” systemic clearance. On the other hand, small-molecules also stereoselectively take their biological actions. Taking propoxyphene as an example, dextropropoxyphene is an analgesic, whereas levopropoxyphene is ” an antitussive agent. Warfarin is another example. At physiological concentrations, R-warfarin interacts with pregnane X receptor and significantly induces CYP3A4 and CYP2C9 mRNAs, while S-warfarin does not show such effects. As mentioned above, it is interesting and important to explore the interactions between chiral small molecules and stereoselective biomacromolecules, with pre-clinical and clinical significances. Ginsenosides, the main effective constituents of ginseng, have a broad range of therapeutic applications. The basic structure of ginsenoside is tetracyclic triterpenoid, with many chiral carbones in the molecule. Particularly, the chirality of carbon-20 contributes to the two stereoisomers of each ginsenoside. They are called epimers. It is very likely that the two epimers of ginsenoside have different biological characteristics. 20-ginsenoside Rg3 but not 20-ginsenoside Rg3 inhibited the Ca2, K and Na channel currents in a dose- and voltage-dependent manner. In human fecal microflora, the amount of 20-ginsenoside Rg3 transforming to 20-ginsenoside Rh2 was 19-fold higher than that of 20-ginsenoside Rg3 transforming to 20-ginsenoside Rh2. On the other hand, as the deglycosylation metabolite of Rg3, ginsenoside Rh2 also exhibited stereoselective activities. 20-ginsenoside Rh2 but not 20-ginsenoside Rh2 inhibited the proliferation of both androgen-dependent and independent prostate cancer cells. Interestingly, 20-ginsenoside Rh2 is a selective osteoclastgenesis inhibitor without any cytotoxicity, while 20-ginsenoside Rh2 showed weak osteoclastgenesis inhibition but had strong cytotoxicity in osteoclasts. We have previously examined the pharmacokinetic profile of ginsenoside Rh2 and observed its poor bioavailability . We found that stereochemistry was one of the causes to poor oral absorption, because 20-ginsenoside Rh2 and 20ginsenoside Rh2 exhibited different membrane permeabilities. Hence, the stereochemistry of the hydroxyl group at carbon20 plays an important role in the activities of ginsenoside epimers. Stereoselective Regulations of P-Glycoprotein P-glycoprotein, a member of drug transporters, mediates not only the transport of endogenous substances but also of the exogenous therapeutic drugs. As biomacromoleucles, P-gp owns the ability to distinguish the ligands stereoselectively, and contributes to different dispositions of the chiral ligands. For example, P-gp MedChemExpress Tangeretin ATPase hydrolysis and P-gp substrate recognition was stimulated by cis-flupentixol while inhibited by trans-flupentixol. Recently, the structure of mouse P-gp, with 87% sequence identity to human P-gp, has been reported. It was found that P-gp could distinguish between QZ59-RRR and QZ59-SSS, two stereoisomers of cyclic peptides, through different binding locations, orientation and stoichiometry with P-gp. It is very interesting to discuss the interactions between P-gp and chiral small molecules. However, the related reports are limited. Recently, we have