Autor: |
Jeong, Yu Young, Jia, Nuo, Ganesan, Dhasarathan, Cai, Qian |
Předmět: |
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Zdroj: |
Autophagy; Jun2022, Vol. 18 Issue 6, p1472-1474, 3p |
Abstrakt: |
Mitochondrial defects are a hallmark of Alzheimer disease (AD), with pathologically phosphorylated MAPT/tau (phospho-MAPT/tau) reported to induce mitochondrial damage. Mitophagy constitutes a key pathway of mitochondrial quality control by which damaged mitochondria are sequestered within autophagosomes for lysosomal degradation. However, the mechanistic understanding of mitophagy and its association with pathologies under tauopathy conditions remains very limited. Here, we reveal that mitochondrial stress under phospho-MAPT/tau-mediated challenges broadly activates PRKN-mediated mitophagy which induces an unexpected effect – depletion of mitochondria from synaptic terminals, a characteristic feature in early tauopathy. PRKN activation accelerates RHOT1 turnover and consequently halts RHOT1-mediated mitochondrial anterograde movement, which disrupts mitochondrial supply to tauopathy synapses and thereby impairs synaptic function. Strikingly, increasing RHOT1 levels prevents synapse loss and reverses cognitive impairment in tauopathy mice by restoring synaptic mitochondrial populations. Thus, our study uncovers an important early mechanism underlying tauopathy-linked synaptic failure and opens a new avenue for specifically targeting early synaptic dysfunction in tauopathies, including AD. Abbreviations: AAV: adeno-associated virus; AD: Alzheimer disease; FTD: Frontotemporal dementia; LTP: long-term potentiation; Δψm: mitochondrial membrane potential; Phospho-MAPT/tau: hyperphosphorylated Microtubule Associated Protein Tau/tau; RHOT1: ras homolog family member T1; RNAi: RNA interference; Tg: transgenic [ABSTRACT FROM AUTHOR] |
Databáze: |
Complementary Index |
Externí odkaz: |
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