An Innexin-Dependent Cell Network Establishes Left-Right Neuronal Asymmetry in C. elegans

Chiou Fen Chuang; Miri K. VanHoven; Richard D. Fetter; Vytas K. Verselis; Cornelia I. Bargmann

doi:10.1016/j.cell.2007.02.052

An Innexin-Dependent Cell Network Establishes Left-Right Neuronal Asymmetry in C. elegans

Chiou Fen Chuang, Miri K. VanHoven, Richard D. Fetter, Vytas K. Verselis, Cornelia I. Bargmann

Neuroscience

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

108 Scopus citations

Abstract

Gap junctions are widespread in immature neuronal circuits, but their functional significance is poorly understood. We show here that a transient network formed by the innexin gap-junction protein NSY-5 coordinates left-right asymmetry in the developing nervous system of Caenorhabditis elegans. nsy-5 is required for the left and right AWC olfactory neurons to establish stochastic, asymmetric patterns of gene expression during embryogenesis. nsy-5-dependent gap junctions in the embryo transiently connect the AWC cell bodies with those of numerous other neurons. Both AWCs and several other classes of nsy-5-expressing neurons participate in signaling that coordinates left-right AWC asymmetry. The right AWC can respond to nsy-5 directly, but the left AWC requires nsy-5 function in multiple cells of the network. NSY-5 forms hemichannels and intercellular gap-junction channels in Xenopus oocytes, consistent with a combination of cell-intrinsic and network functions. These results provide insight into gap-junction activity in developing circuits.

Original language	English (US)
Pages (from-to)	787-799
Number of pages	13
Journal	Cell
Volume	129
Issue number	4
DOIs	https://doi.org/10.1016/j.cell.2007.02.052
State	Published - May 18 2007

Keywords

CELLBIO
MOLNEURO

ASJC Scopus subject areas

Biochemistry, Genetics and Molecular Biology(all)

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10.1016/j.cell.2007.02.052

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@article{39eb03454e5140e49be5a2533f70198c,

title = "An Innexin-Dependent Cell Network Establishes Left-Right Neuronal Asymmetry in C. elegans",

abstract = "Gap junctions are widespread in immature neuronal circuits, but their functional significance is poorly understood. We show here that a transient network formed by the innexin gap-junction protein NSY-5 coordinates left-right asymmetry in the developing nervous system of Caenorhabditis elegans. nsy-5 is required for the left and right AWC olfactory neurons to establish stochastic, asymmetric patterns of gene expression during embryogenesis. nsy-5-dependent gap junctions in the embryo transiently connect the AWC cell bodies with those of numerous other neurons. Both AWCs and several other classes of nsy-5-expressing neurons participate in signaling that coordinates left-right AWC asymmetry. The right AWC can respond to nsy-5 directly, but the left AWC requires nsy-5 function in multiple cells of the network. NSY-5 forms hemichannels and intercellular gap-junction channels in Xenopus oocytes, consistent with a combination of cell-intrinsic and network functions. These results provide insight into gap-junction activity in developing circuits.",

keywords = "CELLBIO, MOLNEURO",

author = "Chuang, {Chiou Fen} and VanHoven, {Miri K.} and Fetter, {Richard D.} and Verselis, {Vytas K.} and Bargmann, {Cornelia I.}",

note = "Funding Information: We are grateful to K. McDonald of the University of California, Berkeley and K.D. Derr at the New York Structural Biology Center for assistance in the freezing of embryos. We thank C. Woods and H. Jaramillo for excellent technical support and S. Bauer Huang, C. Chang, B. Lesch, M. Tsunozaki, M. Zimmer, N. Pokala, G. Lee, and A. Chang for comments, discussions, and reagents. We also thank A. North and the Rockefeller University Bio-Imaging Resource Center for advice on confocal imaging, S. McCarroll for the pSM and pSM-GFP vectors, S. Kennedy and G. Ruvkun for the eri-1;lin-15B strain, Y. Kohara for EST clones, A. Fire for C. elegans vectors, T. Stiernagle and the Caenorhabditis Genetic Center for strains, S. Mitani for nsy-5(tm1896) , and WormBase. This work was supported by NIH grant RO1 DC04089. C.I.B. is an Investigator of the Howard Hughes Medical Institute. ",

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doi = "10.1016/j.cell.2007.02.052",

language = "English (US)",

volume = "129",

pages = "787--799",

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T1 - An Innexin-Dependent Cell Network Establishes Left-Right Neuronal Asymmetry in C. elegans

AU - Chuang, Chiou Fen

AU - VanHoven, Miri K.

AU - Fetter, Richard D.

AU - Verselis, Vytas K.

AU - Bargmann, Cornelia I.

N1 - Funding Information: We are grateful to K. McDonald of the University of California, Berkeley and K.D. Derr at the New York Structural Biology Center for assistance in the freezing of embryos. We thank C. Woods and H. Jaramillo for excellent technical support and S. Bauer Huang, C. Chang, B. Lesch, M. Tsunozaki, M. Zimmer, N. Pokala, G. Lee, and A. Chang for comments, discussions, and reagents. We also thank A. North and the Rockefeller University Bio-Imaging Resource Center for advice on confocal imaging, S. McCarroll for the pSM and pSM-GFP vectors, S. Kennedy and G. Ruvkun for the eri-1;lin-15B strain, Y. Kohara for EST clones, A. Fire for C. elegans vectors, T. Stiernagle and the Caenorhabditis Genetic Center for strains, S. Mitani for nsy-5(tm1896) , and WormBase. This work was supported by NIH grant RO1 DC04089. C.I.B. is an Investigator of the Howard Hughes Medical Institute.

PY - 2007/5/18

Y1 - 2007/5/18

N2 - Gap junctions are widespread in immature neuronal circuits, but their functional significance is poorly understood. We show here that a transient network formed by the innexin gap-junction protein NSY-5 coordinates left-right asymmetry in the developing nervous system of Caenorhabditis elegans. nsy-5 is required for the left and right AWC olfactory neurons to establish stochastic, asymmetric patterns of gene expression during embryogenesis. nsy-5-dependent gap junctions in the embryo transiently connect the AWC cell bodies with those of numerous other neurons. Both AWCs and several other classes of nsy-5-expressing neurons participate in signaling that coordinates left-right AWC asymmetry. The right AWC can respond to nsy-5 directly, but the left AWC requires nsy-5 function in multiple cells of the network. NSY-5 forms hemichannels and intercellular gap-junction channels in Xenopus oocytes, consistent with a combination of cell-intrinsic and network functions. These results provide insight into gap-junction activity in developing circuits.

AB - Gap junctions are widespread in immature neuronal circuits, but their functional significance is poorly understood. We show here that a transient network formed by the innexin gap-junction protein NSY-5 coordinates left-right asymmetry in the developing nervous system of Caenorhabditis elegans. nsy-5 is required for the left and right AWC olfactory neurons to establish stochastic, asymmetric patterns of gene expression during embryogenesis. nsy-5-dependent gap junctions in the embryo transiently connect the AWC cell bodies with those of numerous other neurons. Both AWCs and several other classes of nsy-5-expressing neurons participate in signaling that coordinates left-right AWC asymmetry. The right AWC can respond to nsy-5 directly, but the left AWC requires nsy-5 function in multiple cells of the network. NSY-5 forms hemichannels and intercellular gap-junction channels in Xenopus oocytes, consistent with a combination of cell-intrinsic and network functions. These results provide insight into gap-junction activity in developing circuits.

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JO - Cell

JF - Cell

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ER -

An Innexin-Dependent Cell Network Establishes Left-Right Neuronal Asymmetry in C. elegans

Abstract

Keywords

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