Effects of a methanolic extract and a hyperforin-enriched CO2 extract of Hypericum perforatum on alcohol intake in rats

doi:10.1093/alcalc/36.3.199

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Alcohol and Alcoholism Vol. 36, No. 3, pp. 199-206, 2001
© 2001 Medical Council on Alcoholism

Effects of a methanolic extract and a hyperforin-enriched CO₂ extract of Hypericum perforatum on alcohol intake in rats

Marina Perfumi^*^,, Izabela Panocka¹^,, Roberto Ciccocioppo, Daniele Vitali²^,, Rino Froldi²^, and Maurizio Massi

Department of Pharmacological Sciences and Experimental Medicine, University of Camerino, 62032 Camerino (MC), Italy,
¹ Department of Pharmacology and Toxicology, Military Institute of Hygiene and Epidemiology, Kozielska 4, 01-163 Warsaw, Poland and
² Institute of Legal Medicine, University of Macerata, 62100 Macerata, Italy

Received 31 August 2000; first review notified 7 December 2000; accepted 9 January 2001

Hypericum perforatum extracts (HPE) inhibit ethanol intake inrats. Hypericin and hyperforin have been proposed as major activeprinciples of HPE. The present study compared the effect onethanol intake in alcohol-preferring rats of two Hypericum perforatumextracts: a methanolic extract containing 0.3% hypericin and3.8% hyperforin (HPE1) and a CO₂ extract (HPE2) with 24.33%hyperforin and very low hypericin content. Freely feeding anddrinking rats were offered 10% ethanol 2 h/day and HPE weregiven intragastrically 1 h before access to ethanol. Both extractsdose-dependently reduced ethanol intake, HPE2 being about eighttimes more potent than HPE1. Food and water intakes were notaffected by doses that reduced ethanol intake. HPE2, unlikeHPE1, reduced blood-alcohol levels (BAL) at doses of $>=$ 31.2 mg/kg,whereas the dose of 15.6 mg/kg, which reduced ethanol intake,did not significantly modify BAL; blood-acetaldehyde levelswere never increased. As previously observed for HPE1, intracerebroventricularpretreatment with 5,7-dihydroxytryptamine (150 µg/rat)did not affect attenuation of ethanol intake induced by HPE2,but reduced its effect in the forced swimming test (FST). Intraperitonealpretreatment with the sigma-1 receptor antagonist NE-100 (0.25mg/kg) did not affect inhibition of ethanol intake induced byHPE1 (250 mg/kg) or HPE2 (125 mg/kg), but abolished the effectof both extracts in the FST. In conclusion, the present resultsindicate that HPE2 inhibits ethanol intake more potently thanHPE1; the higher potency of HPE2 parallels the hyperforin content,suggesting that hyperforin may have an important role in reducingethanol intake. Moreover, different neurochemical mechanismsare apparently responsible for the reduction of ethanol intakeand for the antidepressant-like effect of HPE.

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