Myelin repair stimulated by CNS-selective thyroid hormone action

Meredith D. Hartley; Tania Banerji; Ian J. Tagge; Lisa L. Kirkemo; Priya Chaudhary; Evan Calkins; Danielle Galipeau; Mitra D. Shokat; Margaret J. DeBell; Shelby Van Leuven; Hannah Miller; Gail Marracci; Edvinas Pocius; Tapasree Banerji; Skylar J. Ferrara; J. Matthew Meinig; Ben Emery; Dennis Bourdette; Thomas S. Scanlan

doi:10.1172/JCI.INSIGHT.126329

Myelin repair stimulated by CNS-selective thyroid hormone action

Meredith D. Hartley, Tania Banerji, Ian J. Tagge, Lisa L. Kirkemo, Priya Chaudhary, Evan Calkins, Danielle Galipeau, Mitra D. Shokat, Margaret J. DeBell, Shelby Van Leuven, Hannah Miller, Gail Marracci, Edvinas Pocius, Tapasree Banerji, Skylar J. Ferrara, J. Matthew Meinig, Ben Emery, Dennis Bourdette, Thomas S. Scanlan

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55 Scopus citations

Abstract

Oligodendrocyte processes wrap axons to form neuroprotective myelin sheaths, and damage to myelin in disorders, such as multiple sclerosis (MS), leads to neurodegeneration and disability. There are currently no approved treatments for MS that stimulate myelin repair. During development, thyroid hormone (TH) promotes myelination through enhancing oligodendrocyte differentiation; however, TH itself is unsuitable as a remyelination therapy due to adverse systemic effects. This problem is overcome with selective TH agonists, sobetirome and a CNS-selective prodrug of sobetirome called Sob-AM2. We show here that TH and sobetirome stimulated remyelination in standard gliotoxin models of demyelination. We then utilized a genetic mouse model of demyelination and remyelination, in which we employed motor function tests, histology, and MRI to demonstrate that chronic treatment with sobetirome or Sob-AM2 leads to significant improvement in both clinical signs and remyelination. In contrast, chronic treatment with TH in this model inhibited the endogenous myelin repair and exacerbated disease. These results support the clinical investigation of selective CNS-penetrating TH agonists, but not TH, for myelin repair.

Original language	English (US)
Article number	e126329
Journal	JCI Insight
Volume	4
Issue number	8
DOIs	https://doi.org/10.1172/JCI.INSIGHT.126329
State	Published - Apr 2019

ASJC Scopus subject areas

General Medicine

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Hartley, M. D., Banerji, T., Tagge, I. J., Kirkemo, L. L., Chaudhary, P., Calkins, E., Galipeau, D., Shokat, M. D., DeBell, M. J., Van Leuven, S., Miller, H., Marracci, G., Pocius, E., Banerji, T., Ferrara, S. J., Meinig, J. M., Emery, B., Bourdette, D., & Scanlan, T. S. (2019). Myelin repair stimulated by CNS-selective thyroid hormone action. JCI Insight, 4(8), Article e126329. https://doi.org/10.1172/JCI.INSIGHT.126329

Hartley, MD, Banerji, T, Tagge, IJ, Kirkemo, LL, Chaudhary, P, Calkins, E, Galipeau, D, Shokat, MD, DeBell, MJ, Van Leuven, S, Miller, H, Marracci, G, Pocius, E, Banerji, T, Ferrara, SJ, Meinig, JM, Emery, B, Bourdette, D & Scanlan, TS 2019, 'Myelin repair stimulated by CNS-selective thyroid hormone action', JCI Insight, vol. 4, no. 8, e126329. https://doi.org/10.1172/JCI.INSIGHT.126329

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title = "Myelin repair stimulated by CNS-selective thyroid hormone action",

abstract = "Oligodendrocyte processes wrap axons to form neuroprotective myelin sheaths, and damage to myelin in disorders, such as multiple sclerosis (MS), leads to neurodegeneration and disability. There are currently no approved treatments for MS that stimulate myelin repair. During development, thyroid hormone (TH) promotes myelination through enhancing oligodendrocyte differentiation; however, TH itself is unsuitable as a remyelination therapy due to adverse systemic effects. This problem is overcome with selective TH agonists, sobetirome and a CNS-selective prodrug of sobetirome called Sob-AM2. We show here that TH and sobetirome stimulated remyelination in standard gliotoxin models of demyelination. We then utilized a genetic mouse model of demyelination and remyelination, in which we employed motor function tests, histology, and MRI to demonstrate that chronic treatment with sobetirome or Sob-AM2 leads to significant improvement in both clinical signs and remyelination. In contrast, chronic treatment with TH in this model inhibited the endogenous myelin repair and exacerbated disease. These results support the clinical investigation of selective CNS-penetrating TH agonists, but not TH, for myelin repair.",

author = "Hartley, {Meredith D.} and Tania Banerji and Tagge, {Ian J.} and Kirkemo, {Lisa L.} and Priya Chaudhary and Evan Calkins and Danielle Galipeau and Shokat, {Mitra D.} and DeBell, {Margaret J.} and {Van Leuven}, Shelby and Hannah Miller and Gail Marracci and Edvinas Pocius and Tapasree Banerji and Ferrara, {Skylar J.} and Meinig, {J. Matthew} and Ben Emery and Dennis Bourdette and Scanlan, {Thomas S.}",

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doi = "10.1172/JCI.INSIGHT.126329",

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AU - Banerji, Tania

AU - Tagge, Ian J.

AU - Kirkemo, Lisa L.

AU - Chaudhary, Priya

AU - Calkins, Evan

AU - Galipeau, Danielle

AU - Shokat, Mitra D.

AU - DeBell, Margaret J.

AU - Van Leuven, Shelby

AU - Miller, Hannah

AU - Marracci, Gail

AU - Pocius, Edvinas

AU - Banerji, Tapasree

AU - Ferrara, Skylar J.

AU - Meinig, J. Matthew

AU - Emery, Ben

AU - Bourdette, Dennis

AU - Scanlan, Thomas S.

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N2 - Oligodendrocyte processes wrap axons to form neuroprotective myelin sheaths, and damage to myelin in disorders, such as multiple sclerosis (MS), leads to neurodegeneration and disability. There are currently no approved treatments for MS that stimulate myelin repair. During development, thyroid hormone (TH) promotes myelination through enhancing oligodendrocyte differentiation; however, TH itself is unsuitable as a remyelination therapy due to adverse systemic effects. This problem is overcome with selective TH agonists, sobetirome and a CNS-selective prodrug of sobetirome called Sob-AM2. We show here that TH and sobetirome stimulated remyelination in standard gliotoxin models of demyelination. We then utilized a genetic mouse model of demyelination and remyelination, in which we employed motor function tests, histology, and MRI to demonstrate that chronic treatment with sobetirome or Sob-AM2 leads to significant improvement in both clinical signs and remyelination. In contrast, chronic treatment with TH in this model inhibited the endogenous myelin repair and exacerbated disease. These results support the clinical investigation of selective CNS-penetrating TH agonists, but not TH, for myelin repair.

AB - Oligodendrocyte processes wrap axons to form neuroprotective myelin sheaths, and damage to myelin in disorders, such as multiple sclerosis (MS), leads to neurodegeneration and disability. There are currently no approved treatments for MS that stimulate myelin repair. During development, thyroid hormone (TH) promotes myelination through enhancing oligodendrocyte differentiation; however, TH itself is unsuitable as a remyelination therapy due to adverse systemic effects. This problem is overcome with selective TH agonists, sobetirome and a CNS-selective prodrug of sobetirome called Sob-AM2. We show here that TH and sobetirome stimulated remyelination in standard gliotoxin models of demyelination. We then utilized a genetic mouse model of demyelination and remyelination, in which we employed motor function tests, histology, and MRI to demonstrate that chronic treatment with sobetirome or Sob-AM2 leads to significant improvement in both clinical signs and remyelination. In contrast, chronic treatment with TH in this model inhibited the endogenous myelin repair and exacerbated disease. These results support the clinical investigation of selective CNS-penetrating TH agonists, but not TH, for myelin repair.

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Myelin repair stimulated by CNS-selective thyroid hormone action

Abstract

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