Abstract
β-amyloid (Aβ) oligomers have been closely implicated in the pathogenesis of Alzheimer’s disease (AD). We found, for the first time, that bis(heptyl)-cognitin, a novel dimeric acetylcholinesterase (AChE) inhibitor derived from tacrine, prevented Aβ oligomers-induced inhibition of long-term potentiation (LTP) at concentrations that did not interfere with normal LTP. Bis(heptyl)-cognitin also prevented Aβ oligomers-induced synaptotoxicity in primary hippocampal neurons. In contrast, tacrine and donepezil, typical AChE inhibitors, could not prevent synaptic impairments in these models, indicating that the modification of Aβ oligomers toxicity by bis(heptyl)-cognitin might be attributed to a mechanism other than AChE inhibition. Studies by using dot blotting, immunoblotting, circular dichroism spectroscopy, and transmission electron microscopy have shown that bis(heptyl)-cognitin altered Aβ assembly via directly inhibiting Aβ oligomers formation and reducing the amount of preformed Aβ oligomers. Molecular docking analysis further suggested that bis(heptyl)-cognitin presumably interacted with the hydrophobic pockets of Aβ, which confers stabilizing powers and assembly alteration effects on Aβ. Most importantly, bis(heptyl)-cognitin significantly reduced cognitive impairments induced by intra-hippocampal infusion of Aβ oligomers in mice. These results clearly demonstrated how dimeric agents prevent Aβ oligomers-induced synaptic and memory impairments, and offered a strong support for the beneficial therapeutic effects of bis(heptyl)-cognitin in the treatment of AD.
Highlights
Than neuronal degeneration, are synchronous with impairment of cognitive functions[1,2], suggesting that synaptic impairments should be considered as the primary therapeutic target for the treatment of Alzheimer’s disease (AD)
Previous studies have reported that synaptic transmission in the hippocampus is enhanced by the activation of α 7nAChR and its downstream protein kinase (PKA) pathway[35]
We have shown that 1) bis(heptyl)-cognitin and other AChE inhibitors increase high frequency stimulation (HFS)-induced long-term potentiation (LTP) in hippocampal slice; and 2) the enhancement of LTP by bis(heptyl)-cognitin and other AChE inhibitors could be abolished by α 7nAChR antagonists and PKA inhibitors
Summary
Than neuronal degeneration, are synchronous with impairment of cognitive functions[1,2], suggesting that synaptic impairments should be considered as the primary therapeutic target for the treatment of AD. Aβ oligomers selectively impairs synaptic transmissions, reduces the number of synapses and inhibit synaptic plasticity[3] These lines of evidence strongly suggest that the accumulation of soluble Aβ oligomers rather than Aβ monomers or fibrils may play central roles in the pathogenesis of AD. Our previous studies demonstrated that bis(heptyl)-cognitin possesses superior properties in memory enhancement potency in rats and attenuates Aβ -induced neuronal apoptosis in vitro[9,10]. We investigated the effects of bis(heptyl)-cognitin on Aβ oligomers-induced synaptic and memory impairments in various in vitro and in vivo models. Our results suggested that bis(heptyl)-cognitin significantly attenuated Aβ oligomers-induced synaptic and memory impairments by altering Aβ assembly, possibly via directly interacting Aβ
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