Optogenetic stimulation of serotonin nuclei retrieve the lost memory in Alzheimer's disease.

How are memories stored and retrieved? It was one of the most discussed questions in the past century by neuroscientists. Leading studies of the period brought two different explanations to this question: The first statement considers memory as a physiological change in the brain and suggest that the retrieval of memory is only occurred by the same physiologic changes observed during the memory formation, while the second suggests that memory is a psychic mood stored in mind and the retrieval of memory is occurred by mystical energy fluctuations. Although the exact reason and the pathogenesis of Alzheimer's disease have not yet been fully understood, the approaches that centered the retrieval strategy of lost memory constitutes the basis of the treatment strategies in Alzheimer's disease today. The majority of treatment studies has based on the manipulation of the cholinergic system; however, although serotonin has mnemonic effects, its role in the pathogenesis of Alzheimer's disease has not been investigated as much as the cholinergic system. Here we show how serotonin affects the pathogenesis of Alzheimer's disease in a comprehensive perspective and we suggest that the optogenetics manipulation of serotonin nuclei retrieve the lost memory by closing the inward-rectifier potassium channel Kir2 on the memory engram cells. Also, we raise the possible effects of serotonin on the memory engram cells and the interactions between the amyloid-centric hypothesis of Alzheimer's disease and the memory engram hypothesis to explain the pathophysiology of memory loss in Alzheimer's disease.