In Vitro |
NNZ-2591 is a synthetic analog of the neurotrophic peptide cyclic glycine proline (cGP), which occurs naturally in the brain. NNZ-2591 has demonstrated efficacy in pre-clinical models of Parkinson’s disease, stroke, traumatic brain injury, peripheral neuropathy, Fragile X syndrome, memory impairment and multiple sclerosis. cGP has been shown to regulate the binding of IGF-1 to IGF Binding Protein 3 in the brain. An abnormally high amount of IGF Binding Protein 3 is a feature of Rett syndrome. NNZ-2591 prevents scopolamine-induced acute impairment in memory and modulation of acetylcholine neurotransmission may be the mode of action underlying the memory improvement.NNZ-2591 has shown encouraging results in wellvalidated preclinical models of cognitive impairment, Fragile X syndrome, traumatic brain injury, stroke, Parkinson’s disease, peripheral neuropathy and multiple sclerosis.In rats, cyclo-L-glycyl-L-2-allylproline (NNZ-2591), a diketopiperazine, is neuroprotective after ischemic brain injury and also improves motor function in a rat model of Parkinson's disease. Given nootropic actions of diketopiperazines, we investigated the effects of and potential role for acetylcholine neurotransmission in NNZ-2591 on spatial memory after scopolamine-induced amnesia in rats. Adult male Wistar rats were assigned to four groups: saline/water; saline/NNZ-2591; scopolamine/water and scopolamine/NNZ-2591. Morris Water Maze (MWM) tasks were used to determine spatial learning and memory. Thirty minutes prior to each of four daily acquisition trials, rats were intraperitoneally injected with either scopolamine (0.5 mg/kg) or saline. Either NNZ-2591 (30 mg/kg) or water was administered orally (gavages) 10 min after the injection. Immediately after completion of the day 4 acquisition trial a spatial probe trial was performed. The brains were then collected for immunohistochemical analysis. Scopolamine impaired spatial learning and memory compared to saline treated group, particularly in the day 1 acquisition trial. NNZ-2591 did not reverse this deficit, however it significantly improved memory retention by showing more time spent in the correct quadrant. NNZ-2591 also counteracted the scopolamine-induced up-regulation of choline-acetyltransferase positive neurons in the striatum and similarly counteracted the increased synaptophysin density in the hippocampus. Furthermore, a scopolamine-independent antagonistic effect on muscarinic M2 acetylcholine receptors was found after NNZ-2591 treatment, supporting its modulation of acetylcholine neurotransmission. The data suggest that NNZ-2591 prevents scopolamine-induced acute impairment in memory and modulation of acetylcholine neurotransmission may be the mode of action underlying the memory improvement.
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