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Alternative splicing of synaptotagmin 7 regulates oligomerization and short-term synaptic plasticity.


ABSTRACT: Synaptic plasticity is crucial for learning and memory. The presynaptic calcium sensor synaptotagmin 7 (syt7) regulates aspects of short-term plasticity (STP), but the underlying mechanisms remain unclear. Here, we show that alternative splicing of the syt7 juxtamembrane linker acts as a molecular switch at both biochemical and functional levels. The α and β variants undergo liquid-liquid phase separation to form condensates, while the γ variant forms aggregates. Using iGluSnFR imaging, we found that when expressed at equal levels, these three isoforms also diverge regarding their abilities to regulate two key aspects of STP: paired-pulse facilitation and synaptic depression. Further, MINFLUX super resolution microscopy demonstrated that syt7 forms clusters in the active zone, well-positioned to directly control synaptic vesicle dynamics. Thus, alternative splicing might fine-tune STP by differentially impacting syt7 oligomerization.

SUBMITTER: Mehta N 

PROVIDER: S-EPMC12636619 | biostudies-literature | 2025 Oct

REPOSITORIES: biostudies-literature

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Alternative splicing of synaptotagmin 7 regulates oligomerization and short-term synaptic plasticity.

Mehta Nikunj N   Larson Devin T DT   Salaka Raghava Jagadeesh RJ   Wozney Mitch M   Subramani Smrithika S   Mishra Shweta S   Kaur Simi S   Jain Avani A   Chapman Edwin R ER  

bioRxiv : the preprint server for biology 20251028


Synaptic plasticity is crucial for learning and memory. The presynaptic calcium sensor synaptotagmin 7 (syt7) regulates aspects of short-term plasticity (STP), but the underlying mechanisms remain unclear. Here, we show that alternative splicing of the syt7 juxtamembrane linker acts as a molecular switch at both biochemical and functional levels. The α and β variants undergo liquid-liquid phase separation to form condensates, while the γ variant forms aggregates. Using iGluSnFR imaging, we found  ...[more]

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