The possible antidepressant effect of physiological and pharmacological doses of melatonin was investigated in the Porsolt forced swimming-induced behavioral despair test. The duration of immobility period of BALB/c and C57BL/6J mice during a 6-min swim test was measured at noon (11:00-12:00 h), early dark (20:00-21:00 h) and at midnight (1:00-2:00 h), respectively. The circadian time cycle did not alter the duration of immobility in either strains of mice. Similarly, exogenously administered melatonin (10-1000 microg/kg congruent with 50 nM to 5 microM/mouse), a dose that could act on high affinity melatonin receptors, did not modify the duration of immobility period at any of the time intervals studied in either strains of the mice. This suggested that neither circadian variation influenced the duration of immobility period of BALB/c and C57BL/6J mice nor at physiological doses melatonin showed any anti-depressant action. Acute administration of higher doses of melatonin (2.5-10 mg/kg) failed to induce any anti-depressant activity in mice which were subjected to forced swimming test for the first time. However, daily administration of melatonin (2.5-10 mg/kg) prior to swimming test significantly reversed the increase in immobility period that was observed on chronic exposure to swimming test. This effect was comparable with the effect of GABA-benzodiazepine (BZ) receptor agonists. Similarly, like GABAergic drugs, acute administration of melatonin also showed anti-depressant activity in a mice which were exposed to chronic forced swimming test. The anti-depressant action of melatonin was sensitive to reversal by peripheral BZ receptor antagonist, PK11195. Whereas, flumazenil failed to reverse the anti-depressant action of melatonin, thereby suggesting that central BZ receptor were not involved in its action. In conclusion the study showed that at pharmacological doses melatonin has anti-depressant action in chronic forced swimming-induced despair behavior by an action involving peripheral BZ receptors.