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Chemico-genetic discovery of astrocytic control of inhibition in vivo

Author

Listed:
  • Tetsuya Takano

    (Duke University Medical School)

  • John T. Wallace

    (Duke University Medical School)

  • Katherine T. Baldwin

    (Duke University Medical School)

  • Alicia M. Purkey

    (Duke University Medical School)

  • Akiyoshi Uezu

    (Duke University Medical School)

  • Jamie L. Courtland

    (Duke University Medical School)

  • Erik J. Soderblom

    (Duke University Medical School
    Duke University Medical School)

  • Tomomi Shimogori

    (Molecular Mechanisms of Brain Development, Center for Brain Science (CBS), RIKEN)

  • Patricia F. Maness

    (University of North Carolina School of Medicine
    University of North Carolina School of Medicine)

  • Cagla Eroglu

    (Duke University Medical School
    Duke University Medical School)

  • Scott H. Soderling

    (Duke University Medical School
    Duke University Medical School)

Abstract

Perisynaptic astrocytic processes are an integral part of central nervous system synapses1,2; however, the molecular mechanisms that govern astrocyte–synapse adhesions and how astrocyte contacts control synapse formation and function are largely unknown. Here we use an in vivo chemico-genetic approach that applies a cell-surface fragment complementation strategy, Split-TurboID, and identify a proteome that is enriched at astrocyte–neuron junctions in vivo, which includes neuronal cell adhesion molecule (NRCAM). We find that NRCAM is expressed in cortical astrocytes, localizes to perisynaptic contacts and is required to restrict neuropil infiltration by astrocytic processes. Furthermore, we show that astrocytic NRCAM interacts transcellularly with neuronal NRCAM coupled to gephyrin at inhibitory postsynapses. Depletion of astrocytic NRCAM reduces numbers of inhibitory synapses without altering glutamatergic synaptic density. Moreover, loss of astrocytic NRCAM markedly decreases inhibitory synaptic function, with minor effects on excitation. Thus, our results present a proteomic framework for how astrocytes interface with neurons and reveal how astrocytes control GABAergic synapse formation and function.

Suggested Citation

  • Tetsuya Takano & John T. Wallace & Katherine T. Baldwin & Alicia M. Purkey & Akiyoshi Uezu & Jamie L. Courtland & Erik J. Soderblom & Tomomi Shimogori & Patricia F. Maness & Cagla Eroglu & Scott H. So, 2020. "Chemico-genetic discovery of astrocytic control of inhibition in vivo," Nature, Nature, vol. 588(7837), pages 296-302, December.
  • Handle: RePEc:nat:nature:v:588:y:2020:i:7837:d:10.1038_s41586-020-2926-0
    DOI: 10.1038/s41586-020-2926-0
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    Cited by:

    1. Shijie Jin & Xuan Chen & Yang Tian & Rachel Jarvis & Vanessa Promes & Yongjie Yang, 2023. "Astroglial exosome HepaCAM signaling and ApoE antagonization coordinates early postnatal cortical pyramidal neuronal axon growth and dendritic spine formation," Nature Communications, Nature, vol. 14(1), pages 1-18, December.
    2. Kento Ojima & Wataru Kakegawa & Tokiwa Yamasaki & Yuta Miura & Masayuki Itoh & Yukiko Michibata & Ryou Kubota & Tomohiro Doura & Eriko Miura & Hiroshi Nonaka & Seiya Mizuno & Satoru Takahashi & Michis, 2022. "Coordination chemogenetics for activation of GPCR-type glutamate receptors in brain tissue," Nature Communications, Nature, vol. 13(1), pages 1-17, December.
    3. Yudong Gao & Daichi Shonai & Matthew Trn & Jieqing Zhao & Erik J. Soderblom & S. Alexandra Garcia-Moreno & Charles A. Gersbach & William C. Wetsel & Geraldine Dawson & Dmitry Velmeshev & Yong-hui Jian, 2024. "Proximity analysis of native proteomes reveals phenotypic modifiers in a mouse model of autism and related neurodevelopmental conditions," Nature Communications, Nature, vol. 15(1), pages 1-18, December.
    4. Ken-ichi Dewa & Nariko Arimura & Wataru Kakegawa & Masayuki Itoh & Toma Adachi & Satoshi Miyashita & Yukiko U. Inoue & Kento Hizawa & Kei Hori & Natsumi Honjoya & Haruya Yagishita & Shinichiro Taya & , 2024. "Neuronal DSCAM regulates the peri-synaptic localization of GLAST in Bergmann glia for functional synapse formation," Nature Communications, Nature, vol. 15(1), pages 1-18, December.
    5. Ying Zhu & Kerem Can Akkaya & Julia Ruta & Nanako Yokoyama & Cong Wang & Max Ruwolt & Diogo Borges Lima & Martin Lehmann & Fan Liu, 2024. "Cross-link assisted spatial proteomics to map sub-organelle proteomes and membrane protein topologies," Nature Communications, Nature, vol. 15(1), pages 1-18, December.
    6. Xuchen Zhang & Pei-Yi Lin & Kif Liakath-Ali & Thomas C. Südhof, 2022. "Teneurins assemble into presynaptic nanoclusters that promote synapse formation via postsynaptic non-teneurin ligands," Nature Communications, Nature, vol. 13(1), pages 1-18, December.
    7. Sruti Rayaprolu & Sara Bitarafan & Juliet V. Santiago & Ranjita Betarbet & Sydney Sunna & Lihong Cheng & Hailian Xiao & Ruth S. Nelson & Prateek Kumar & Pritha Bagchi & Duc M. Duong & Annie M. Goettem, 2022. "Cell type-specific biotin labeling in vivo resolves regional neuronal and astrocyte proteomic differences in mouse brain," Nature Communications, Nature, vol. 13(1), pages 1-18, December.
    8. Yuki Ogawa & Brian C. Lim & Shanu George & Juan A. Oses-Prieto & Joshua M. Rasband & Yael Eshed-Eisenbach & Hamdan Hamdan & Supna Nair & Francesco Boato & Elior Peles & Alma L. Burlingame & Linda Aels, 2023. "Antibody-directed extracellular proximity biotinylation reveals that Contactin-1 regulates axo-axonic innervation of axon initial segments," Nature Communications, Nature, vol. 14(1), pages 1-18, December.

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