Distinct neurexin-cerebellin complexes control AMPA- and NMDA-receptor responses in a circuit-dependent manner
Distinct neurexin-cerebellin complexes control AMPA- and NMDA-receptor responses in a circuit-dependent manner
At CA1→subiculum synapses, alternatively spliced neurexin-1 (Nrxn1SS4+) and neurexin-3 (Nrxn3SS4+) enhance NMDA-receptors and suppress AMPA-receptors, respectively, without affecting synapse formation. Nrxn1SS4+ and Nrxn3SS4+ act by binding to secreted cerebellin-2 (Cbln2) that in turn activates postsynaptic GluD1 receptors. Whether neurexin-Cbln2-GluD1 signaling has additional functions besides regulating NMDA- and AMPA-receptors, and whether such signaling performs similar roles at other synapses, however, remains unknown. Here, we demonstrate using constitutive Cbln2 deletions in mice that at CA1→subiculum synapses, Cbln2 performs no additional developmental roles besides regulating AMPA- and NMDA-receptors. Moreover, low-level expression of functionally redundant Cbln1 did not compensate for a possible synapse-formation function of Cbln2 at CA1→subiculum synapses. In exploring the generality of these findings, we examined the prefrontal cortex where Cbln2 was recently implicated in spinogenesis, and the cerebellum where Cbln1 is known to regulate parallel-fiber synapses. In the prefrontal cortex, Nrxn1SS4+-Cbln2 signaling selectively controlled NMDA-receptors without affecting spine or synapse numbers, whereas Nrxn3SS4+-Cbln2 signaling had no apparent role. In the cerebellum, conversely, Nrxn3SS4+-Cbln1 signaling regulated AMPA-receptors, whereas now Nrxn1SS4+-Cbln1 signaling had no manifest effect. Thus, Nrxn1SS4+- and Nrxn3SS4+-Cbln1/2 signaling complexes differentially control NMDA- and AMPA-receptors in different synapses in diverse neural circuits without regulating synapse or spine formation.
Animals, Mice, alpha-Amino-3-hydroxy-5-methyl-4-isoxazolepropionic Acid/metabolism, N-Methylaspartate/metabolism, Protein Precursors/genetics, Receptors, AMPA/metabolism, Receptors, N-Methyl-D-Aspartate/metabolism, Synapses/physiology, Calcium-Binding Proteins/metabolism, Neural Cell Adhesion Molecules/metabolism
Dai, Jinye
a95968c4-ee52-4e37-a88d-e411b1835e9f
Liakath-Ali, Kif
8d5a020c-e976-4901-9195-68f4bc0de74e
Golf, Samantha Rose
c55c9869-b1d8-4da3-bbad-ffc69d474590
Südhof, Thomas C
172ec4da-ad42-4b1f-bd99-6b7d288e040c
7 October 2022
Dai, Jinye
a95968c4-ee52-4e37-a88d-e411b1835e9f
Liakath-Ali, Kif
8d5a020c-e976-4901-9195-68f4bc0de74e
Golf, Samantha Rose
c55c9869-b1d8-4da3-bbad-ffc69d474590
Südhof, Thomas C
172ec4da-ad42-4b1f-bd99-6b7d288e040c
Dai, Jinye, Liakath-Ali, Kif, Golf, Samantha Rose and Südhof, Thomas C
(2022)
Distinct neurexin-cerebellin complexes control AMPA- and NMDA-receptor responses in a circuit-dependent manner.
eLife, 11, [e78649].
(doi:10.7554/eLife.78649).
Abstract
At CA1→subiculum synapses, alternatively spliced neurexin-1 (Nrxn1SS4+) and neurexin-3 (Nrxn3SS4+) enhance NMDA-receptors and suppress AMPA-receptors, respectively, without affecting synapse formation. Nrxn1SS4+ and Nrxn3SS4+ act by binding to secreted cerebellin-2 (Cbln2) that in turn activates postsynaptic GluD1 receptors. Whether neurexin-Cbln2-GluD1 signaling has additional functions besides regulating NMDA- and AMPA-receptors, and whether such signaling performs similar roles at other synapses, however, remains unknown. Here, we demonstrate using constitutive Cbln2 deletions in mice that at CA1→subiculum synapses, Cbln2 performs no additional developmental roles besides regulating AMPA- and NMDA-receptors. Moreover, low-level expression of functionally redundant Cbln1 did not compensate for a possible synapse-formation function of Cbln2 at CA1→subiculum synapses. In exploring the generality of these findings, we examined the prefrontal cortex where Cbln2 was recently implicated in spinogenesis, and the cerebellum where Cbln1 is known to regulate parallel-fiber synapses. In the prefrontal cortex, Nrxn1SS4+-Cbln2 signaling selectively controlled NMDA-receptors without affecting spine or synapse numbers, whereas Nrxn3SS4+-Cbln2 signaling had no apparent role. In the cerebellum, conversely, Nrxn3SS4+-Cbln1 signaling regulated AMPA-receptors, whereas now Nrxn1SS4+-Cbln1 signaling had no manifest effect. Thus, Nrxn1SS4+- and Nrxn3SS4+-Cbln1/2 signaling complexes differentially control NMDA- and AMPA-receptors in different synapses in diverse neural circuits without regulating synapse or spine formation.
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elife-78649-v4
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Published date: 7 October 2022
Keywords:
Animals, Mice, alpha-Amino-3-hydroxy-5-methyl-4-isoxazolepropionic Acid/metabolism, N-Methylaspartate/metabolism, Protein Precursors/genetics, Receptors, AMPA/metabolism, Receptors, N-Methyl-D-Aspartate/metabolism, Synapses/physiology, Calcium-Binding Proteins/metabolism, Neural Cell Adhesion Molecules/metabolism
Identifiers
Local EPrints ID: 491387
URI: http://eprints.soton.ac.uk/id/eprint/491387
ISSN: 2050-084X
PURE UUID: 68bfe895-2722-4620-a2f7-2ecb515a3d9d
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Date deposited: 21 Jun 2024 16:36
Last modified: 22 Jun 2024 02:14
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Author:
Jinye Dai
Author:
Kif Liakath-Ali
Author:
Samantha Rose Golf
Author:
Thomas C Südhof
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