GPR56/ADG RG1 regulates development and maintenance of peripheral myelin

Sarah D. Ackerman; Rong Luo; Yannick Poitelon; Amit Mogha; Breanne L. Harty; Mitchell D'Rozario; Nicholas E. Sanchez; Asvin K.K. Lakkaraju; Paul Gamble; Jun Li; Jun Qu; Matthew R. MacEwan; Wilson Zachary Ray; Adriano Aguzzi; M. Laura Feltri; Xianhua Piao; Kelly R. Monk

doi:10.1084/jem.20161714

GPR56/ADG RG1 regulates development and maintenance of peripheral myelin

Sarah D. Ackerman, Rong Luo, Yannick Poitelon, Amit Mogha, Breanne L. Harty, Mitchell D'Rozario, Nicholas E. Sanchez, Asvin K.K. Lakkaraju, Paul Gamble, Jun Li, Jun Qu, Matthew R. MacEwan, Wilson Zachary Ray, Adriano Aguzzi, M. Laura Feltri, Xianhua Piao, Kelly R. Monk

Vollum Institute

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

44 Scopus citations

Abstract

Myelin is a multilamellar sheath generated by specialized glia called Schwann cells (SCs) in the peripheral nervous system (PNS), which serves to protect and insulate axons for rapid neuronal signaling. In zebrafish and rodent models, we identify GPR56/ADG RG1 as a conserved regulator of PNS development and health. We demonstrate that, during SC development, GPR56-dependent RhoA signaling promotes timely radial sorting of axons. In the mature PNS, GPR56 is localized to distinct SC cytoplasmic domains, is required to establish proper myelin thickness, and facilitates organization of the myelin sheath. Furthermore, we define plectin-a scaffolding protein previously linked to SC domain organization, myelin maintenance, and a series of disorders termed "plectinopathies"-as a novel interacting partner of GPR56. Finally, we show that Gpr56 mutants develop progressive neuropathy-like symptoms, suggesting an underlying mechanism for peripheral defects in some human patients with GPR56 mutations. In sum, we define Gpr56 as a new regulator in the development and maintenance of peripheral myelin.

Original language	English (US)
Pages (from-to)	941-961
Number of pages	21
Journal	Journal of Experimental Medicine
Volume	215
Issue number	3
DOIs	https://doi.org/10.1084/jem.20161714
State	Published - Mar 1 2018

ASJC Scopus subject areas

General Medicine

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Ackerman, S. D., Luo, R., Poitelon, Y., Mogha, A., Harty, B. L., D'Rozario, M., Sanchez, N. E., Lakkaraju, A. K. K., Gamble, P., Li, J., Qu, J., MacEwan, M. R., Ray, W. Z., Aguzzi, A., Feltri, M. L., Piao, X., & Monk, K. R. (2018). GPR56/ADG RG1 regulates development and maintenance of peripheral myelin. Journal of Experimental Medicine, 215(3), 941-961. https://doi.org/10.1084/jem.20161714

Ackerman, SD, Luo, R, Poitelon, Y, Mogha, A, Harty, BL, D'Rozario, M, Sanchez, NE, Lakkaraju, AKK, Gamble, P, Li, J, Qu, J, MacEwan, MR, Ray, WZ, Aguzzi, A, Feltri, ML, Piao, X & Monk, KR 2018, 'GPR56/ADG RG1 regulates development and maintenance of peripheral myelin', Journal of Experimental Medicine, vol. 215, no. 3, pp. 941-961. https://doi.org/10.1084/jem.20161714

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title = "GPR56/ADG RG1 regulates development and maintenance of peripheral myelin",

abstract = "Myelin is a multilamellar sheath generated by specialized glia called Schwann cells (SCs) in the peripheral nervous system (PNS), which serves to protect and insulate axons for rapid neuronal signaling. In zebrafish and rodent models, we identify GPR56/ADG RG1 as a conserved regulator of PNS development and health. We demonstrate that, during SC development, GPR56-dependent RhoA signaling promotes timely radial sorting of axons. In the mature PNS, GPR56 is localized to distinct SC cytoplasmic domains, is required to establish proper myelin thickness, and facilitates organization of the myelin sheath. Furthermore, we define plectin-a scaffolding protein previously linked to SC domain organization, myelin maintenance, and a series of disorders termed {"}plectinopathies{"}-as a novel interacting partner of GPR56. Finally, we show that Gpr56 mutants develop progressive neuropathy-like symptoms, suggesting an underlying mechanism for peripheral defects in some human patients with GPR56 mutations. In sum, we define Gpr56 as a new regulator in the development and maintenance of peripheral myelin.",

author = "Ackerman, {Sarah D.} and Rong Luo and Yannick Poitelon and Amit Mogha and Harty, {Breanne L.} and Mitchell D'Rozario and Sanchez, {Nicholas E.} and Lakkaraju, {Asvin K.K.} and Paul Gamble and Jun Li and Jun Qu and MacEwan, {Matthew R.} and Ray, {Wilson Zachary} and Adriano Aguzzi and Feltri, {M. Laura} and Xianhua Piao and Monk, {Kelly R.}",

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AU - Ackerman, Sarah D.

AU - Luo, Rong

AU - Poitelon, Yannick

AU - Mogha, Amit

AU - Harty, Breanne L.

AU - D'Rozario, Mitchell

AU - Sanchez, Nicholas E.

AU - Lakkaraju, Asvin K.K.

AU - Gamble, Paul

AU - Li, Jun

AU - Qu, Jun

AU - MacEwan, Matthew R.

AU - Ray, Wilson Zachary

AU - Aguzzi, Adriano

AU - Feltri, M. Laura

AU - Piao, Xianhua

AU - Monk, Kelly R.

PY - 2018/3/1

Y1 - 2018/3/1

N2 - Myelin is a multilamellar sheath generated by specialized glia called Schwann cells (SCs) in the peripheral nervous system (PNS), which serves to protect and insulate axons for rapid neuronal signaling. In zebrafish and rodent models, we identify GPR56/ADG RG1 as a conserved regulator of PNS development and health. We demonstrate that, during SC development, GPR56-dependent RhoA signaling promotes timely radial sorting of axons. In the mature PNS, GPR56 is localized to distinct SC cytoplasmic domains, is required to establish proper myelin thickness, and facilitates organization of the myelin sheath. Furthermore, we define plectin-a scaffolding protein previously linked to SC domain organization, myelin maintenance, and a series of disorders termed "plectinopathies"-as a novel interacting partner of GPR56. Finally, we show that Gpr56 mutants develop progressive neuropathy-like symptoms, suggesting an underlying mechanism for peripheral defects in some human patients with GPR56 mutations. In sum, we define Gpr56 as a new regulator in the development and maintenance of peripheral myelin.

AB - Myelin is a multilamellar sheath generated by specialized glia called Schwann cells (SCs) in the peripheral nervous system (PNS), which serves to protect and insulate axons for rapid neuronal signaling. In zebrafish and rodent models, we identify GPR56/ADG RG1 as a conserved regulator of PNS development and health. We demonstrate that, during SC development, GPR56-dependent RhoA signaling promotes timely radial sorting of axons. In the mature PNS, GPR56 is localized to distinct SC cytoplasmic domains, is required to establish proper myelin thickness, and facilitates organization of the myelin sheath. Furthermore, we define plectin-a scaffolding protein previously linked to SC domain organization, myelin maintenance, and a series of disorders termed "plectinopathies"-as a novel interacting partner of GPR56. Finally, we show that Gpr56 mutants develop progressive neuropathy-like symptoms, suggesting an underlying mechanism for peripheral defects in some human patients with GPR56 mutations. In sum, we define Gpr56 as a new regulator in the development and maintenance of peripheral myelin.

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GPR56/ADG RG1 regulates development and maintenance of peripheral myelin

Abstract

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