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Abstract
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Alzheimer's disease (AD) is one of the biggest human health threats due to increases in aging of the global pop�ulation. Unfortunately, drugs for treating AD have been largely ineffective. Interestingly, downregulation of mac�roautophagy (autophagy) plays an essential role in AD pathogenesis. Therefore, targeting autophagy has drawn considerable attention as a therapeutic approach for the treatment of AD. However, developing new therapeutics is time-consuming and requires huge investments. One of the strategies currently under consideration for many diseases is “drug repositioning” or “drug repurposing”. In this comprehensive review, we have provided an over�view of the impact of autophagy on AD pathophysiology, reviewed the therapeutics that upregulate autophagy and are currently used in the treatment of other diseases, including cancers, and evaluated their repurposing as a possible treatment option for AD. In addition, we discussed the potential of applying nano-drug delivery to neu�rodegenerative diseases, such as AD, to overcome the challenge of crossing the blood brain barrier and specifically target molecules/pathways of interest with minimal side effects.
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