Wecker_2013_Neuropharmacol_73C_75

Reference

Title : Neuronal nicotinic receptor agonists improve gait and balance in olivocerebellar ataxia - Wecker_2013_Neuropharmacol_73C_75
Author(s) : Wecker L , Engberg ME , Philpot RM , Lambert CS , Kang CW , Antilla JC , Bickford PC , Hudson CE , Zesiewicz TA , Rowell PP
Ref : Neuropharmacology , 73C :75 , 2013
Abstract :

Clinical studies have reported that the nicotinic receptor agonist varenicline improves balance and coordination in patients with several types of ataxia, but confirmation in an animal model has not been demonstrated. This study investigated whether varenicline and nicotine could attenuate the ataxia induced in rats following destruction of the olivocerebellar pathway by the neurotoxin 3-acetylpyridine (3-AP). The administration of 3-AP (70 mg/kg followed by 300 mg niacinamide/kg; i.p.) led to an 85% loss of inferior olivary neurons within one week without evidence of recovery, and was accompanied by a 72% decrease in rotorod activity, a 3-fold increase in the time to traverse a stationary beam, a 19% decrease in velocity and 31% decrease in distance moved in the open field, and alterations in gait parameters, with a 19% increase in hindpaw stride width. The daily administration of nicotine (0.33 mg free base/kg) for one week improved rotorod performance by 50% and normalized the increased hindpaw stride width, effects that were prevented by the daily preadministration of the nicotinic antagonist mecamylamine (0.8 mg free base/kg). Varenicline (1 and 3 mg free base/kg daily) also improved rotorod performance by approximately 50% following one week of administration, and although it did not alter the time to traverse the beam, it did improve the ability to maintain balance on the beam. Neither varenicline nor nicotine, at doses that improved balance, affected impaired locomotor activity in the open field. Results provide evidence that nicotinic agonists are of benefit for alleviating some of the behavioral deficits in olivocerebellar ataxia and warrant further studies to elucidate the specific mechanism(s) involved.

PubMedSearch : Wecker_2013_Neuropharmacol_73C_75
PubMedID: 23711550

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Citations formats

Wecker L, Engberg ME, Philpot RM, Lambert CS, Kang CW, Antilla JC, Bickford PC, Hudson CE, Zesiewicz TA, Rowell PP (2013)
Neuronal nicotinic receptor agonists improve gait and balance in olivocerebellar ataxia
Neuropharmacology 73C :75

Wecker L, Engberg ME, Philpot RM, Lambert CS, Kang CW, Antilla JC, Bickford PC, Hudson CE, Zesiewicz TA, Rowell PP (2013)
Neuropharmacology 73C :75