Journal
JOURNAL OF ALZHEIMERS DISEASE
Volume 24, Issue 3, Pages 569-586Publisher
IOS PRESS
DOI: 10.3233/JAD-2011-101794
Keywords
Acetylcholine; Alzheimer's disease; amyloid; animal model; immunotoxin; sigma-1 receptor agonist; spatial learning; rat
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Funding
- MIUR, Rome [RBNE03FH5Y, 2005032713]
- Kathleen Foreman-Casali Foundation, Trieste, Italy
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Sigma-1 receptor agonists have recently attracted much attention as potential therapeutic drugs for cognitive and affective disorders, however, it is still unclear whether they act via modulation of transmitter release or activation of sigma-1 receptors in memory-related brain regions. In the present study, we have investigated the anti-amnesic and neuroprotective actions of the compound (-)-methyl (1S,2R)-2-{[1-adamantyl(methyl) amino] methyl}-1-phenylcyclopropane-carboxylate) [(-)-MR22], a selective sigma-1 receptor agonist able to protect cultured co\rtical neurons from amyloid toxicity. To this aim, cognitive deficits, cholinergic loss, and amyloid peptide accumulation were obtained in the rat by simultaneous injections of a selective immunotoxin and pre-aggregated amyloid peptide into the basal forebrain and the hippocampus, respectively. At about five-six weeks post-lesion, the double-lesioned animals exhibited dramatic deficits in spatial learning and memory, whereas animals with single injections of either compound were not or only marginally affected, in spite of equally severe cholinergic loss or amyloid deposition. Administration of (-)-MR22 appeared to reverse cognitive impairments in double lesioned animals, whereas pre-treatment with the selective sigma-1 antagonist BD1047 abolished this effect. Moreover, (-)-MR22 normalized the levels of cell-associated amyloid-beta protein precursor (A beta PP) in the neocortex and hippocampus, thus sustaining a non-amyloidogenic A beta PP processing. By contrast, treatment with (-)-MR22 produced no effects whatsoever in intact animals. Thus, sigma-1 receptor agonists such as (-)-MR22 may ameliorate perturbed cognitive abilities and exert a protective action onto target neurons, holding promises as viable tools for memory enhancement and neuroprotection.
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