γ-Protocadherins control synapse formation and peripheral branching of touch sensory neurons

Shan Meltzer; Katelyn C. Boulanger; Anda M. Chirila; Emmanuella Osei-Asante; Michelle DeLisle; Qiyu Zhang; Brian T. Kalish; Aniqa Tasnim; Erica L. Huey; Leah C. Fuller; Erin K. Flaherty; Tom Maniatis; Andrew M. Garrett; Joshua A. Weiner; David D. Ginty

doi:10.1016/j.neuron.2023.03.012

γ-Protocadherins control synapse formation and peripheral branching of touch sensory neurons

Shan Meltzer, Katelyn C. Boulanger, Anda M. Chirila, Emmanuella Osei-Asante, Michelle DeLisle, Qiyu Zhang, Brian T. Kalish, Aniqa Tasnim, Erica L. Huey, Leah C. Fuller, Erin K. Flaherty, Tom Maniatis, Andrew M. Garrett, Joshua A. Weiner, David D. Ginty

Research output: Contribution to journal › Article › peer-review

18 Scopus citations

Abstract

Light touch sensation begins with activation of low-threshold mechanoreceptor (LTMR) endings in the skin and propagation of their signals to the spinal cord and brainstem. We found that the clustered protocadherin gamma (Pcdhg) gene locus, which encodes 22 cell-surface homophilic binding proteins, is required in somatosensory neurons for normal behavioral reactivity to a range of tactile stimuli. Developmentally, distinct Pcdhg isoforms mediate LTMR synapse formation through neuron-neuron interactions and peripheral axonal branching through neuron-glia interactions. The Pcdhgc3 isoform mediates homophilic interactions between sensory axons and spinal cord neurons to promote synapse formation in vivo and is sufficient to induce postsynaptic specializations in vitro. Moreover, loss of Pcdhgs and somatosensory synaptic inputs to the dorsal horn leads to fewer corticospinal synapses on dorsal horn neurons. These findings reveal essential roles for Pcdhg isoform diversity in somatosensory neuron synapse formation, peripheral axonal branching, and stepwise assembly of central mechanosensory circuitry.

Original language	English
Pages (from-to)	1776-1794.e10
Journal	Neuron
Volume	111
Issue number	11
DOIs	https://doi.org/10.1016/j.neuron.2023.03.012
State	Published - 7 Jun 2023
Externally published	Yes

Keywords

axon
axonal branching
circuit wiring
somatosensory neurons
spinal cord
synapse
γ-protocadherins

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10.1016/j.neuron.2023.03.012

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Meltzer, S., Boulanger, K. C., Chirila, A. M., Osei-Asante, E., DeLisle, M., Zhang, Q., Kalish, B. T., Tasnim, A., Huey, E. L., Fuller, L. C., Flaherty, E. K., Maniatis, T., Garrett, A. M., Weiner, J. A., & Ginty, D. D. (2023). γ-Protocadherins control synapse formation and peripheral branching of touch sensory neurons. Neuron, 111(11), 1776-1794.e10. https://doi.org/10.1016/j.neuron.2023.03.012

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title = "γ-Protocadherins control synapse formation and peripheral branching of touch sensory neurons",

abstract = "Light touch sensation begins with activation of low-threshold mechanoreceptor (LTMR) endings in the skin and propagation of their signals to the spinal cord and brainstem. We found that the clustered protocadherin gamma (Pcdhg) gene locus, which encodes 22 cell-surface homophilic binding proteins, is required in somatosensory neurons for normal behavioral reactivity to a range of tactile stimuli. Developmentally, distinct Pcdhg isoforms mediate LTMR synapse formation through neuron-neuron interactions and peripheral axonal branching through neuron-glia interactions. The Pcdhgc3 isoform mediates homophilic interactions between sensory axons and spinal cord neurons to promote synapse formation in vivo and is sufficient to induce postsynaptic specializations in vitro. Moreover, loss of Pcdhgs and somatosensory synaptic inputs to the dorsal horn leads to fewer corticospinal synapses on dorsal horn neurons. These findings reveal essential roles for Pcdhg isoform diversity in somatosensory neuron synapse formation, peripheral axonal branching, and stepwise assembly of central mechanosensory circuitry.",

keywords = "axon, axonal branching, circuit wiring, somatosensory neurons, spinal cord, synapse, γ-protocadherins",

author = "Shan Meltzer and Boulanger, \{Katelyn C.\} and Chirila, \{Anda M.\} and Emmanuella Osei-Asante and Michelle DeLisle and Qiyu Zhang and Kalish, \{Brian T.\} and Aniqa Tasnim and Huey, \{Erica L.\} and Fuller, \{Leah C.\} and Flaherty, \{Erin K.\} and Tom Maniatis and Garrett, \{Andrew M.\} and Weiner, \{Joshua A.\} and Ginty, \{David D.\}",

note = "Publisher Copyright: {\textcopyright} 2023 The Author(s)",

year = "2023",

month = jun,

day = "7",

doi = "10.1016/j.neuron.2023.03.012",

language = "English",

volume = "111",

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journal = "Neuron",

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Meltzer, S, Boulanger, KC, Chirila, AM, Osei-Asante, E, DeLisle, M, Zhang, Q, Kalish, BT, Tasnim, A, Huey, EL, Fuller, LC, Flaherty, EK, Maniatis, T, Garrett, AM, Weiner, JA & Ginty, DD 2023, 'γ-Protocadherins control synapse formation and peripheral branching of touch sensory neurons', Neuron, vol. 111, no. 11, pp. 1776-1794.e10. https://doi.org/10.1016/j.neuron.2023.03.012

TY - JOUR

T1 - γ-Protocadherins control synapse formation and peripheral branching of touch sensory neurons

AU - Meltzer, Shan

AU - Boulanger, Katelyn C.

AU - Chirila, Anda M.

AU - Osei-Asante, Emmanuella

AU - DeLisle, Michelle

AU - Zhang, Qiyu

AU - Kalish, Brian T.

AU - Tasnim, Aniqa

AU - Huey, Erica L.

AU - Fuller, Leah C.

AU - Flaherty, Erin K.

AU - Maniatis, Tom

AU - Garrett, Andrew M.

AU - Weiner, Joshua A.

AU - Ginty, David D.

PY - 2023/6/7

Y1 - 2023/6/7

N2 - Light touch sensation begins with activation of low-threshold mechanoreceptor (LTMR) endings in the skin and propagation of their signals to the spinal cord and brainstem. We found that the clustered protocadherin gamma (Pcdhg) gene locus, which encodes 22 cell-surface homophilic binding proteins, is required in somatosensory neurons for normal behavioral reactivity to a range of tactile stimuli. Developmentally, distinct Pcdhg isoforms mediate LTMR synapse formation through neuron-neuron interactions and peripheral axonal branching through neuron-glia interactions. The Pcdhgc3 isoform mediates homophilic interactions between sensory axons and spinal cord neurons to promote synapse formation in vivo and is sufficient to induce postsynaptic specializations in vitro. Moreover, loss of Pcdhgs and somatosensory synaptic inputs to the dorsal horn leads to fewer corticospinal synapses on dorsal horn neurons. These findings reveal essential roles for Pcdhg isoform diversity in somatosensory neuron synapse formation, peripheral axonal branching, and stepwise assembly of central mechanosensory circuitry.

AB - Light touch sensation begins with activation of low-threshold mechanoreceptor (LTMR) endings in the skin and propagation of their signals to the spinal cord and brainstem. We found that the clustered protocadherin gamma (Pcdhg) gene locus, which encodes 22 cell-surface homophilic binding proteins, is required in somatosensory neurons for normal behavioral reactivity to a range of tactile stimuli. Developmentally, distinct Pcdhg isoforms mediate LTMR synapse formation through neuron-neuron interactions and peripheral axonal branching through neuron-glia interactions. The Pcdhgc3 isoform mediates homophilic interactions between sensory axons and spinal cord neurons to promote synapse formation in vivo and is sufficient to induce postsynaptic specializations in vitro. Moreover, loss of Pcdhgs and somatosensory synaptic inputs to the dorsal horn leads to fewer corticospinal synapses on dorsal horn neurons. These findings reveal essential roles for Pcdhg isoform diversity in somatosensory neuron synapse formation, peripheral axonal branching, and stepwise assembly of central mechanosensory circuitry.

KW - axon

KW - axonal branching

KW - circuit wiring

KW - somatosensory neurons

KW - spinal cord

KW - synapse

KW - γ-protocadherins

UR - https://www.scopus.com/pages/publications/85153234437

U2 - 10.1016/j.neuron.2023.03.012

DO - 10.1016/j.neuron.2023.03.012

M3 - Article

C2 - 37028432

AN - SCOPUS:85153234437

SN - 0896-6273

VL - 111

SP - 1776-1794.e10

JO - Neuron

JF - Neuron

IS - 11

ER -

γ-Protocadherins control synapse formation and peripheral branching of touch sensory neurons

Abstract

Keywords

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