Antidepressant fluvoxamine reduces cerebral infarct volume and ameliorates sensorimotor dysfunction in experimental stroke.

The sigma-1 receptor has been reported to be associated with diverse biological activities including cellular differentiation, neuroplasticity, neuroprotection, and cognitive functioning of the brain. Fluvoxamine, one of the currently known antidepressants, is a sigma-1 receptor agonist; its effectiveness in treating acute cerebral ischemia has not been reported. We studied the in-vivo effects of this compound using an animal model of focal cerebral ischemia. Forty male Sprague-Dawley rats were subjected to right middle cerebral artery occlusion and assigned to five treatment groups (n=8 each). Postischemic neurological deficits and infarct volume were determined 24 h after stroke-inducing surgery. Significant reductions in infarct volume (total and cortical) were found in group 2 (fluvoxamine 20 mg/kg given 6 h before and immediately after ischemic onset) and group 3 (fluvoxamine given immediately after ischemic onset and 2 h later) compared with controls. Fluvoxamine induced significant amelioration of sensorimotor dysfunction, as indicated by the scores of forelimb and hindlimb placing tests. Moreover, NE-100, a selective sigma-1 receptor antagonist, completely blocked the neuroprotective effect of fluvoxamine. The present findings suggest that the sigma-1 receptor agonist fluvoxamine reduces infarct volume and ameliorates neurological impairment even on postischemic treatment. From the clinical viewpoint, fluvoxamine may be a promising new therapeutic approach for cerebral infarction.