| Title : Cholinergic synaptic plasticity shapes resilience and vulnerability to tau - Onuska_2025_bioRxiv__ |
| Author(s) : Onuska KM , Devito LA , Shanks HR , Qi Q , Crooks AM , Haast RA , Andrews TS , Williams KM , Beraldo FH , Qiu T , Fajardo-Valdez A , Wearn A , Turner GR , Aumont E , Thiessen JD , Fox MS , Hicks JW , Bussey TJ , Saksida LM , Tremblay-Mercier J , Breitner JC , Soucy JP , Poirier J , Bedard MA , Villeneuve S , Prado VF , Prado MA , Spreng RN , Schmitz TW |
| Ref : bioRxiv , : , 2025 |
|
Abstract :
Synaptic dysfunction is a hallmark of Alzheimer's disease (AD). Yet due to their plasticity, synapses may also adapt to early AD pathology. Here, we demonstrate that cholinergic neurons mount a presynaptic response to tau pathology in the living human brain. Using multi-tracer positron emission tomography in cognitively normal older adults at risk for AD, we observe that cholinergic neurons increase presynaptic vesicular acetylcholine transporter (VACHT) protein levels when colocalized to tau, but not amyloid. Notably, stronger VAChT responses predict preserved cognitive function over a decade. Whole-brain single-nucleus RNA sequencing in human and mouse tissue reveal that cholinergic neurons are enriched for a plasticity gene-network anchored to the microtubule-associated protein tau (MAPT) gene. In mice, forebrain-specific deletion of VAChT impairs cortical plasticity and hippocampal structural integrity. Overall, our findings identify cholinergic synaptic plasticity, and its failure, as a fundamental mechanism of resilience and vulnerability to tau in presymptomatic AD. |
| PubMedSearch : Onuska_2025_bioRxiv__ |
| PubMedID: 41279121 |
Onuska KM, Devito LA, Shanks HR, Qi Q, Crooks AM, Haast RA, Andrews TS, Williams KM, Beraldo FH, Qiu T, Fajardo-Valdez A, Wearn A, Turner GR, Aumont E, Thiessen JD, Fox MS, Hicks JW, Bussey TJ, Saksida LM, Tremblay-Mercier J, Breitner JC, Soucy JP, Poirier J, Bedard MA, Villeneuve S, Prado VF, Prado MA, Spreng RN, Schmitz TW (2025)
Cholinergic synaptic plasticity shapes resilience and vulnerability to tau
bioRxiv
:
Onuska KM, Devito LA, Shanks HR, Qi Q, Crooks AM, Haast RA, Andrews TS, Williams KM, Beraldo FH, Qiu T, Fajardo-Valdez A, Wearn A, Turner GR, Aumont E, Thiessen JD, Fox MS, Hicks JW, Bussey TJ, Saksida LM, Tremblay-Mercier J, Breitner JC, Soucy JP, Poirier J, Bedard MA, Villeneuve S, Prado VF, Prado MA, Spreng RN, Schmitz TW (2025)
bioRxiv
: