Molecular self-avoidance in synaptic neurexin complexes
Molecular self-avoidance in synaptic neurexin complexes
Synapses are thought to be organized by interactions of presynaptic neurexins with postsynaptic ligands, particularly with neuroligins and cerebellins. However, when a neuron forms adjacent pre- and postsynaptic specializations, as in dendrodendritic or axo-axonic synapses, nonfunctional cis neurexin/ligand interactions would be energetically favored. Here, we reveal an organizational principle for preventing synaptic cis interactions (“self-avoidance”). Using dendrodendritic synapses between mitral and granule cells in the olfactory bulb as a paradigm, we show that, owing to its higher binding affinity, cerebellin-1 blocks the cis interaction of neurexins with neuroligins, thereby enabling trans neurexin/neuroligin interaction. In mitral cells, ablating either cerebellin-1 or neuroligins severely impaired granule cell➔mitral cell synapses, as did overexpression of wild-type neurexins but not of mutant neurexins unable to bind to neuroligins. Our data uncover a molecular interaction network that organizes the self-avoidance of nonfunctional neurexin/ligand cis interactions, thus allowing assembly of physiological trans interactions.
Wang, Cosmos Yuqi
06e27a6c-be85-426a-ba3b-8699067dd8ad
Trotter, Justin H.
ad684242-43a3-4f3a-8241-58cf244569f5
Liakath-Ali, Kif
8d5a020c-e976-4901-9195-68f4bc0de74e
Lee, Sung-Jin
e17fb828-4e95-4094-8f81-95f5e63ab7df
Liu, Xinran
af35932b-4019-4663-93b8-16d831230ae5
Südhof, Thomas C.
172ec4da-ad42-4b1f-bd99-6b7d288e040c
17 December 2021
Wang, Cosmos Yuqi
06e27a6c-be85-426a-ba3b-8699067dd8ad
Trotter, Justin H.
ad684242-43a3-4f3a-8241-58cf244569f5
Liakath-Ali, Kif
8d5a020c-e976-4901-9195-68f4bc0de74e
Lee, Sung-Jin
e17fb828-4e95-4094-8f81-95f5e63ab7df
Liu, Xinran
af35932b-4019-4663-93b8-16d831230ae5
Südhof, Thomas C.
172ec4da-ad42-4b1f-bd99-6b7d288e040c
Wang, Cosmos Yuqi, Trotter, Justin H., Liakath-Ali, Kif, Lee, Sung-Jin, Liu, Xinran and Südhof, Thomas C.
(2021)
Molecular self-avoidance in synaptic neurexin complexes.
Science Advances, 7 (51), [eabk1924].
(doi:10.1126/sciadv.abk1924).
Abstract
Synapses are thought to be organized by interactions of presynaptic neurexins with postsynaptic ligands, particularly with neuroligins and cerebellins. However, when a neuron forms adjacent pre- and postsynaptic specializations, as in dendrodendritic or axo-axonic synapses, nonfunctional cis neurexin/ligand interactions would be energetically favored. Here, we reveal an organizational principle for preventing synaptic cis interactions (“self-avoidance”). Using dendrodendritic synapses between mitral and granule cells in the olfactory bulb as a paradigm, we show that, owing to its higher binding affinity, cerebellin-1 blocks the cis interaction of neurexins with neuroligins, thereby enabling trans neurexin/neuroligin interaction. In mitral cells, ablating either cerebellin-1 or neuroligins severely impaired granule cell➔mitral cell synapses, as did overexpression of wild-type neurexins but not of mutant neurexins unable to bind to neuroligins. Our data uncover a molecular interaction network that organizes the self-avoidance of nonfunctional neurexin/ligand cis interactions, thus allowing assembly of physiological trans interactions.
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sciadv.abk1924
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Published date: 17 December 2021
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Local EPrints ID: 491448
URI: http://eprints.soton.ac.uk/id/eprint/491448
ISSN: 2375-2548
PURE UUID: 123b7d75-7f78-4311-95d5-64a096e56d01
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Date deposited: 24 Jun 2024 16:49
Last modified: 25 Jun 2024 02:10
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Author:
Cosmos Yuqi Wang
Author:
Justin H. Trotter
Author:
Kif Liakath-Ali
Author:
Sung-Jin Lee
Author:
Xinran Liu
Author:
Thomas C. Südhof
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