An M1/sigma‐1 receptor agonist prevents cognitive deficits, reduces amyloid plaques and neuroinflammation in a transgenic rat model of Alzheimer’s amyloid pathology.

Abstract Background Acetylcholinesterase inhibitors represent four out of six drugs for treating Alzheimer’s disease (AD), with time‐limited efficacy likely due to the progressive loss of cholinergic neurons. The selective allosteric M1 muscarinic and sigma‐1 receptor agonist Anavex 3‐71 (aka AF710B) [1] takes advantage of the fact that acetylcholine postsynaptic M1 muscarinic brain receptor levels remain unchanged in AD. Previously, Anavex 3‐71 treatment attenuated AD hallmarks in McGill‐R‐Thy1‐APP transgenic rats when administered at advanced stages of the AD‐like pathology [2]. However, preventive strategies instead of late treatment should be more effective in AD. Therefore, we tested whether Anavex 3‐71 administration during early amyloid pathology stages could prevent cognitive impairment, plaque deposition and neuroinflammation. Method Pre‐plaque, seven‐month‐old McGill‐R‐Thy1‐APP rats were subjected to daily oral administration of Anavex 3‐71 (10 µg/kg) for seven months. After one month of drug interruption (wash‐out), we performed Novel Object Recognition (NOR), Morris Water Maze (MWM) and Social Preference (SP) behavioural tests. Subsequently, brains were extracted, fixed and analyzed by histochemistry and immunohistochemistry. Result McGill‐APP rats had deficits in discriminating the novel object in the NOR and locating the hidden platform in the MWM compared to wild‐type littermates. Anavex 3‐71 restored the abilities of McGill‐APP rats in the NOR task to wild‐type levels and partially rescued the deficits in the MWM. In the SP task, Anavex 3‐71‐treated McGill‐APP rats exhibited diminished deficits in SP interaction time with a “stranger rat”. Treatment significantly reduced the number of mature Thioflavin‐S positive plaques in the subiculum compared to vehicle‐treated McGill‐APP rats and diminished the number of diffuse plaques in the cortex and hippocampus. Furthermore, Anavex 3‐71 treatment significantly reduced microglia and astrocyte recruitment towards CA1 hippocampal Aβ‐burdened neurons compared to untreated McGill‐APP rats. Conclusion The long‐lasting effect of Anavex 3‐71 in preventing cognitive decline of McGill‐R‐Thy1‐APP rats, even after a wash‐out period would suggest some preventative, disease‐modifying, properties of the compound over the AD‐like amyloid pathology. This is supported by the attenuation of extracellular Aβ deposition and reduced glial cell recruitment towards hippocampal neurons. [1] Fisher et al., 2016; Neurodegenerative Diseases . https://doi.org/10.1159/000440864 [2] Hall et al., 2018; Alzheimer’s & Dementia . https://doi.org/10.1016/j.jalz.2017.11.009