Reduction of Spermine Synthase Suppresses Tau Accumulation Through Autophagy Modulation in Tauopathy.
Xianzun TaoJiaqi LiuZoraida Diaz-PerezJackson R FoleyTracy Murray StewartRobert A CaseroRong Grace ZhaiPublished in: bioRxiv : the preprint server for biology (2023)
Tauopathy, including Alzheimer Disease (AD), is characterized by Tau protein accumulation and autophagy dysregulation. Emerging evidence connects polyamine metabolism with the autophagy pathway, however the role of polyamines in Tauopathy remains unclear. In the present study we investigated the role of spermine synthase (SMS) in autophagy regulation and tau protein processing in Drosophila and human cellular models of Tauopathy. Our previous study showed that Drosophila spermine synthase ( dSms ) deficiency impairs lysosomal function and blocks autophagy flux. Interestingly, partial loss-of-function of SMS in heterozygous dSms flies extends lifespan and improves the climbing performance of flies with human Tau (hTau) overexpression. Mechanistic analysis showed that heterozygous loss-of-function mutation of dSms reduces hTau protein accumulation through enhancing autophagic flux. Measurement of polyamine levels detected a mild elevation of spermidine in flies with heterozygous loss of dSms . SMS knock-down in human neuronal or glial cells also upregulates autophagic flux and reduces Tau protein accumulation. Proteomics analysis of postmortem brain tissue from AD patients showed a significant albeit modest elevation of SMS protein level in AD-relevant brain regions compared to that of control brains consistently across several datasets. Taken together, our study uncovers a correlation between SMS protein level and AD pathogenesis and reveals that SMS reduction upregulates autophagy, promotes Tau clearance, and reduces Tau protein accumulation. These findings provide a new potential therapeutic target of Tauopathy.
Keyphrases
- cell death
- signaling pathway
- endoplasmic reticulum stress
- cerebrospinal fluid
- endothelial cells
- induced apoptosis
- protein protein
- oxidative stress
- amino acid
- end stage renal disease
- cell cycle arrest
- chronic kidney disease
- risk assessment
- mass spectrometry
- early onset
- spinal cord
- rna seq
- spinal cord injury
- single molecule
- induced pluripotent stem cells
- blood brain barrier
- peritoneal dialysis
- drosophila melanogaster