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Alternative splicing controls teneurin-latrophilin interaction and synapse specificity by a shape-shifting mechanism.


ABSTRACT: The trans-synaptic interaction of the cell-adhesion molecules teneurins (TENs) with latrophilins (LPHNs/ADGRLs) promotes excitatory synapse formation when LPHNs simultaneously interact with FLRTs. Insertion of a short alternatively-spliced region within TENs abolishes the TEN-LPHN interaction and switches TEN function to specify inhibitory synapses. How alternative-splicing regulates TEN-LPHN interaction remains unclear. Here, we report the 2.9?Å resolution cryo-EM structure of the TEN2-LPHN3 complex, and describe the trimeric TEN2-LPHN3-FLRT3 complex. The structure reveals that the N-terminal lectin domain of LPHN3 binds to the TEN2 barrel at a site far away from the alternatively spliced region. Alternative-splicing regulates the TEN2-LPHN3 interaction by hindering access to the LPHN-binding surface rather than altering it. Strikingly, mutagenesis of the LPHN-binding surface of TEN2 abolishes the LPHN3 interaction and impairs excitatory but not inhibitory synapse formation. These results suggest that a multi-level coincident binding mechanism mediated by a cryptic adhesion complex between TENs and LPHNs regulates synapse specificity.

SUBMITTER: Li J 

PROVIDER: S-EPMC7195488 | biostudies-literature | 2020 May

REPOSITORIES: biostudies-literature

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Alternative splicing controls teneurin-latrophilin interaction and synapse specificity by a shape-shifting mechanism.

Li Jingxian J   Xie Yuan Y   Cornelius Shaleeka S   Jiang Xian X   Sando Richard R   Kordon Szymon P SP   Pan Man M   Leon Katherine K   Südhof Thomas C TC   Zhao Minglei M   Araç Demet D  

Nature communications 20200501 1


The trans-synaptic interaction of the cell-adhesion molecules teneurins (TENs) with latrophilins (LPHNs/ADGRLs) promotes excitatory synapse formation when LPHNs simultaneously interact with FLRTs. Insertion of a short alternatively-spliced region within TENs abolishes the TEN-LPHN interaction and switches TEN function to specify inhibitory synapses. How alternative-splicing regulates TEN-LPHN interaction remains unclear. Here, we report the 2.9 Å resolution cryo-EM structure of the TEN2-LPHN3 co  ...[more]

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