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
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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Research Article Endocrinology Neuroscience

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.

Authors

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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Figure 3

After Myrf ablation, iCKO-Myrf mice experience clinical signs of demyelination and remyelination consistent with histology findings.

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After Myrf ablation, iCKO-Myrf mice experience clinical signs of demyeli...
(A) Myrf ablation was induced at 8 weeks of age in iCKO-Myrf mice with daily i.p. doses of tamoxifen over 5 days. Mice performed the rotarod test weekly for 32 weeks after tamoxifen injection. (B) Representative BlackGold images of Cre-positive brains at week 10 and week 24 compared with Cre-negative controls. Scale bars: 1 mm. (C) Serial, semiquantitative magnetization transfer ratio (MTR) maps at week 10 and week 24 (right) averaged from 3 mice. Averaged MTR map from wild-type C57BL6 mice (left, n = 5) was adapted with permission from PLoS ONE (34). Note the hyperintense myelinated white matter tracts in the wild-type mice, compared with isointense and slightly hyperintense corresponding areas in the week 10 and week 24 Cre-positive mice, respectively. Scale bars: 1 mm.