To rectify Alzheimer's disease etiology, excessive mitochondrial division might be stopped or mitophagy might be promoted

In both in vitro and in vivo Alzheimer's disease (AD) models, mitochondrial dysfunction is a crucial feature that limits neuronal activity and results in A and phosphorylated Tau toxicity. To rectify AD etiology, excessive mitochondrial division might be stopped or mitophagy might be promoted. However, there are still unexplained mysteries surrounding the formation of senile plaques and NFTs, and the pathophysiology of Alzheimer's disease lacks fundamental unifying principles. Some scientists believe A toxicity and Tau toxicity are upstream processes in mitochondrial dysfunction, while others feel it is a downstream chain of events involving abnormal mitochondria. There are several mitophagy mechanisms for the clearance of dead mitochondria in PINK1 signaling; some are regulated by Parkin, while others are not. Drp1, Mfn1/2, PINK1, or Parkin, according to some researchers, have no role in mitophagy cleaning dysfunctional mitochondria; so, additional study is needed to solve the puzzle of mitophagy signaling pathways for clearing dead mitochondria and conserving high-quality mitochondria. Therapeutic techniques targeting mitophagy activity might be useful in reversing AD etiology.