Suppression of heavy drinking and alcohol seeking by a selective ALDH-2 inhibitor.

BACKGROUND: Inherited human aldehyde dehydrogenase 2 (ALDH-2) deficiency reduces the risk for alcoholism. Kudzu plants and extracts have been used for 1,000 years in traditional Chinese medicine to treat alcoholism. Kudzu contains daidzin, which inhibits ALDH-2 and suppresses heavy drinking in rodents. Decreased drinking due to ALDH-2 inhibition is attributed to aversive properties of acetaldehyde accumulated during alcohol consumption. However, daidzin can reduce drinking in some rodents without necessarily increasing acetaldehyde. Therefore, a selective ALDH-2 inhibitor might affect other metabolic factors involved in regulating drinking. METHODS: Aldehyde dehydrogenase 2 inhibitors were synthesized based on the co-crystal structure of ALDH-2 and daidzin. We tested the efficacy of a highly selective reversible ALDH-2 inhibitor, CVT-10216, in models of moderate and high alcohol drinking rats. We studied 2-bottle choice and deprivation-induced drinking paradigms in Fawn Hooded (FH) rats, operant self-administration in Long Evans (LE), FH, and inbred P (iP) rats and in cue-induced reinstatement in iP rats. We also assayed blood acetaldehyde levels as well as dopamine (DA) release in the nucleus accumbens (NAc) and tested possible rewarding/aversive effects of the inhibitor in a conditioned place preference (CPP) paradigm. RESULTS: CVT-10216 increases acetaldehyde after alcohol gavage and inhibits 2-bottle choice alcohol intake in heavy drinking rodents, including deprivation-induced drinking. Moreover, CVT-10216 also prevents operant self-administration and eliminates cue-induced reinstatement of alcohol seeking even when alcohol is not available (i.e., no acetaldehyde). Alcohol stimulates DA release in the NAc, which is thought to contribute to increased drinking and relapse in alcoholism. CVT-10216 prevents alcohol-induced increases in NAc DA without changing basal levels. CVT-10216 does not show rewarding or aversive properties in the CPP paradigm at therapeutic doses. CONCLUSION: Our findings suggest that selective reversible ALDH-2 inhibitors may have therapeutic potential to reduce excessive drinking and to suppress relapse in abstinent alcoholics.

Eugenol and its structural analogs inhibit monoamine oxidase A and exhibit antidepressant-like activity.

Eugenol (1) is an active principle of Rhizoma acori graminei, a medicinal herb used in Asia for the treatment of symptoms reminiscent of Alzheimer's disease (AD). It has been shown to protect neuronal cells from the cytotoxic effect of amyloid beta peptides (Abetas) in cell cultures and exhibit antidepressant-like activity in mice. Results from this study show that eugenol inhibits monoamine oxidase A (MAOA) preferentially with a K(i)=26 microM. It also inhibits MAOB but at much higher concentrations (K(i)=211 microM). In both cases, inhibition is competitive with respect to the monoamine substrate. Survey of compounds structurally related to eugenol has identified a few that inhibit MAOs more potently. Structure activity relationship reveals structural features important for MAOA and MAOB inhibition. Molecular docking experiments were performed to help explain the SAR outcomes. Four of these compounds, two (1, 24) inhibiting MAOA selectively and the other two (19, 21) inhibiting neither MAOA nor MAOB, were tested for antidepressant-like activity using the forced swim test in mice. Results suggest a potential link between the antidepressant activity of eugenol and its MAOA inhibitory activity.

Rhizoma acori graminei and its active principles protect PC-12 cells from the toxic effect of amyloid-beta peptide.

The effects of water extracts of six medicinal herbs (Radix polygalae tenuifoliae, Radix salviae miltiorrhizae, Rhizoma acori graminei, Rhizoma pinelliae ternatae, Tuber curcumae and Scletrotium poriae cocos) on the cytotoxic action of Abeta(1-40) were tested with PC-12 cells. Only the extract of R. acori graminei (RAG) significantly decreased Abeta(1-40)-induced cell death. Further, eugenol and beta-asarone were isolated and identified as the major active principles. Both purified eugenol and beta-asarone protected PC-12 cells from the toxic effect of Abeta(1-40). Eugenol was active between 1 and 100 microM, and 10 microM eugenol gave approximately a 50% response. beta-Asarone was less potent and exhibited little, if any, activity at this concentration. Both eugenol and beta-asarone inhibited Ca(2+) intake by PC-12 cells: beta-asarone mainly inhibited basal Ca(2+) intake, whereas eugenol inhibited Abeta-induced Ca(2+) intake preferentially. These results suggest that eugenol may act by blocking Abeta-induced-Ca(2+) intake and provide a strong case for further pursuit of the therapeutic and prophylactic potentials of RAG and its active principles for the management of Alzheimer's disease.

Herbal remedies for alcoholism: promises and possible pitfalls.

This review summarizes the findings of the effects on alcohol intake in alcohol-preferring rats of extracts or purified compounds from two of the most promising herbs: kudzu (Pueraria lobata) and St. John's Wort (Hypericum perforatum). It is a summary of a symposium presented at the 2002 RSA meeting in San Francisco. The meeting organizers/co-chairs were David Overstreet and Wing-Ming Keung. The presentations were (1) Introduction to the symposium, by David Y. W. Lee and David H. Overstreet; (2) Effects of daidzin on alcohol intake-search for mechanisms of action, by Wing-Ming Keung; (3) Long-term suppressive effects of puerarin on alcohol drinking in rats, by David Overstreet and David Y. W. Lee; (4) St. John's Wort extract reduces alcohol intake in FH and P rats, by Amir Rezvani and David Overstreet; and (5) extracts reduce alcohol intake in Marchigian Sardinian alcohol-preferring rats, by Maurizio Massi.