Hydrophobicity and haemolytic potential of oxo derivatives of cholic, deoxycholic and chenodeoxycholic acids.

The objective of this work was to study the effect of structure of bile acids on their membranolytic potential and extent of overlapping of the information about the membranolytic potential of bile acids and their physico-chemical parameters, namely: retention index R(M0) (as a measure of bile acid hydrophobicity, reversed-phase thin-layer chromatography (RPTLC)), lecithin solubilisation (measure of the interaction of bile acids with phospholipids) and critical micellar concentration (CMC). It was found that bile acid concentrations at 100% lysis of erythrocyte membranes is described best by their CMC values, whereas at 50% lysis the parameter used is lecithin solubilisation. This indicates that different mixed micelles are formed in the membrane lysis at lower and higher concentrations of bile acids. Replacement of the hydroxyl (OH) group in the bile acid molecule with an oxo group yields derivatives with lowered hydrophobicity, power of lecithin solubilisation, tendency for self-aggregation as well as the membranolytic activity.

Synthesis and antitussive evaluation of verticinone-cholic acid salt, a novel and potential cough therapeutic agent.

AIM: To seek a novel and potent antitussive drug based on Shedan-Chuanbei powder, a complex of traditional Chinese medicine preparation for cough therapy. METHODS: Verticinone-cholic acid (Ver-CA) salt, a novel, salifying derivative of verticinone and cholic acid, both of which are the major bioactive components in Shedan-Chuanbei powder, was synthesized. We then evaluated the antitussive activity and the acute toxicity of the salt. RESULTS: The new compound, with good solubility in water, has much more potent antitussive activity in comparison with the same dose of single verticinone and single cholic acid. The administration 3 mg/kg of Ver-CA could result in over 50% reduction of a citric acid-induced cough. Pretreatment with naloxone (0.8 mg/kg, ip) can only partially antagonize its antitussive effect. On the other hand, glybenclamide (3 mg/kg, ip), an ATP-sensitive K+ channel blocker, can also significantly reduce the antitussive effect of Ver-CA. A further acute toxicity study showed that the LD(50) values of Ver-CA were 3 times that of verticinone. CONCLUSION: Based on the studies of pharmacology and acute toxicity, the salt has a synergic and attenuated toxicity compared with single verticinone and cholic acid. Moreover, the present study also suggests that Ver-CA, a potential novel antitussive agent, may exert its antitussive effect via both the peripheral (modulated by ATP-sensitive K+ channels) and central mechanisms (modulated by the opioid receptor).