A G protein-coupled receptor is essential for schwann cells to initiate myelination

Kelly R. Monk; Stephen G. Naylor; Thomas D. Glenn; Sara Mercurio; Julie R. Perlin; Claudia Dominguez; Cecilia B. Moens; William S. Talbot

doi:10.1126/science.1173474

A G protein-coupled receptor is essential for schwann cells to initiate myelination

Kelly R. Monk, Stephen G. Naylor, Thomas D. Glenn, Sara Mercurio, Julie R. Perlin, Claudia Dominguez, Cecilia B. Moens, William S. Talbot

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

266 Scopus citations

Abstract

The myelin sheath allows axons to conduct action potentials rapidly in the vertebrate nervous system. Axonal signals activate expression of specific transcription factors, including Oct6 and Krox20, that initiate myelination in Schwann cells. Elevation of cyclic adenosine monophosphate (cAMP) can mimic axonal contact in vitro, but the mechanisms that regulate cAMP levels in vivo are unknown. Using mutational analysis in zebrafish, we found that the G protein-coupled receptor Gpr126 is required autonomously in Schwann cells for myelination. In gpr126 mutants, Schwann cells failed to express oct6 and krox20 and were arrested at the promyelinating stage. Elevation of cAMP in gpr126 mutants, but not krox20 mutants, could restore myelination. We propose that Gpr126 drives the differentiation of promyelinating Schwann cells by elevating cAMP levels, thereby triggering Oct6 expression and myelination.

Original language	English (US)
Pages (from-to)	1402-1405
Number of pages	4
Journal	Science
Volume	325
Issue number	5946
DOIs	https://doi.org/10.1126/science.1173474
State	Published - 2009
Externally published	Yes

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title = "A G protein-coupled receptor is essential for schwann cells to initiate myelination",

abstract = "The myelin sheath allows axons to conduct action potentials rapidly in the vertebrate nervous system. Axonal signals activate expression of specific transcription factors, including Oct6 and Krox20, that initiate myelination in Schwann cells. Elevation of cyclic adenosine monophosphate (cAMP) can mimic axonal contact in vitro, but the mechanisms that regulate cAMP levels in vivo are unknown. Using mutational analysis in zebrafish, we found that the G protein-coupled receptor Gpr126 is required autonomously in Schwann cells for myelination. In gpr126 mutants, Schwann cells failed to express oct6 and krox20 and were arrested at the promyelinating stage. Elevation of cAMP in gpr126 mutants, but not krox20 mutants, could restore myelination. We propose that Gpr126 drives the differentiation of promyelinating Schwann cells by elevating cAMP levels, thereby triggering Oct6 expression and myelination.",

author = "Monk, {Kelly R.} and Naylor, {Stephen G.} and Glenn, {Thomas D.} and Sara Mercurio and Perlin, {Julie R.} and Claudia Dominguez and Moens, {Cecilia B.} and Talbot, {William S.}",

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T1 - A G protein-coupled receptor is essential for schwann cells to initiate myelination

AU - Monk, Kelly R.

AU - Naylor, Stephen G.

AU - Glenn, Thomas D.

AU - Mercurio, Sara

AU - Perlin, Julie R.

AU - Dominguez, Claudia

AU - Moens, Cecilia B.

AU - Talbot, William S.

PY - 2009

Y1 - 2009

N2 - The myelin sheath allows axons to conduct action potentials rapidly in the vertebrate nervous system. Axonal signals activate expression of specific transcription factors, including Oct6 and Krox20, that initiate myelination in Schwann cells. Elevation of cyclic adenosine monophosphate (cAMP) can mimic axonal contact in vitro, but the mechanisms that regulate cAMP levels in vivo are unknown. Using mutational analysis in zebrafish, we found that the G protein-coupled receptor Gpr126 is required autonomously in Schwann cells for myelination. In gpr126 mutants, Schwann cells failed to express oct6 and krox20 and were arrested at the promyelinating stage. Elevation of cAMP in gpr126 mutants, but not krox20 mutants, could restore myelination. We propose that Gpr126 drives the differentiation of promyelinating Schwann cells by elevating cAMP levels, thereby triggering Oct6 expression and myelination.

AB - The myelin sheath allows axons to conduct action potentials rapidly in the vertebrate nervous system. Axonal signals activate expression of specific transcription factors, including Oct6 and Krox20, that initiate myelination in Schwann cells. Elevation of cyclic adenosine monophosphate (cAMP) can mimic axonal contact in vitro, but the mechanisms that regulate cAMP levels in vivo are unknown. Using mutational analysis in zebrafish, we found that the G protein-coupled receptor Gpr126 is required autonomously in Schwann cells for myelination. In gpr126 mutants, Schwann cells failed to express oct6 and krox20 and were arrested at the promyelinating stage. Elevation of cAMP in gpr126 mutants, but not krox20 mutants, could restore myelination. We propose that Gpr126 drives the differentiation of promyelinating Schwann cells by elevating cAMP levels, thereby triggering Oct6 expression and myelination.

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A G protein-coupled receptor is essential for schwann cells to initiate myelination

Abstract

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