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ABSTRACT: The heterozygous Trembler-J (TrJ/+) mouse, containing a point mutation in the peripheral myelin protein 22 (Pmp22) gene, is characterized by severe hypomyelination and is a representative model of Charcot-Marie-Tooth 1A (CMT1A) disease/Dejerine-Sottas syndrome (DSS). Given that the neurotrophin-3 (NT3)-TrkC signaling pathway is inhibitory to myelination during development, we investigated the role of the NT3-TrkC pathway in myelination and manipulated this pathway to improve myelin formation in the CMT1A/DSS mouse model. Injection of NT3 to the TrJ/+ mice decreased the myelin protein P(0) level in the sciatic nerves. Suppressing the NT3-TrkC pathway with TrkC-Fc, an NT3 scavenger, enhanced myelination in vitro and in vivo in the TrJ/+ mouse. Furthermore, we found that full-length TrkC was expressed in adult TrJ/+ mouse sciatic nerves but was not detected in the wild-type adults, suggesting that the full-length TrkC is a potential target of treatment to enhance myelination in the TrJ/+ mouse.
Journal of Neuroscience Research 11/2007; 85(13):2863-9. · 2.74 Impact Factor
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ABSTRACT: The Trembler-J (TrJ) mouse, containing a point mutation in the peripheral myelin protein 22 gene, is characterized by severe hypomyelination and is a representative model of Charcot-Marie-Tooth 1A disease/Dejerine-Sottas Syndrome. Previous studies have shown that protein kinase inhibitor K252a enhances wild-type Schwann cell myelination in culture. We used a dorsal root ganglion (DRG) explant culture system from the heterozygous TrJ/+ mouse to investigate if myelination could be enhanced by K252a. The TrJ/+ DRG explant cultures replicated some important features of the TrJ/+ mouse, showing reduced myelin protein accumulation, thinner myelin sheaths, and shortened myelin internodes. K252a increased myelin protein accumulation and myelin sheath thickness but did not substantially increase myelin internode length. Furthermore, the TrJ/+ DRG explant culture and sciatic nerves continued to respond to K252a during the stage when myelination is complete in the wild type. A general tyrosine kinase inhibitor, genistein, but not inhibitors of serine/threonine protein kinase inhibitors, had a similar effect to K252a. K252a is therefore able to partially overcome hypomyelination by enhancing mutant Schwann cell myelin formation in the TrJ/+ mouse.
Journal of Neuroscience Research 03/2005; 79(3):310-7. · 2.74 Impact Factor
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ABSTRACT: A characteristic feature of mouse models of the peripheral neuropathies caused by dominant mutations in peripheral myelin protein 22 (pmp22) is the appearance, in Schwann cells, of pmp22 aggregates. Using a set of dominant and recessive pmp22 mutations that cause human disease of varying degrees of severity, we compared their potential for aggregation and trafficking patterns with those of wild-type pmp22. The potential for aggregation was assessed by determining the size distribution of the various pmp22 mutant proteins under conditions where wild-type pmp22 showed little or no aggregation. All disease-causing dominant mutations showed significant aggregation and failed to traffic to the cell surface. Although the position of the dominant mutation in the pmp22 molecule determined both its potential for aggregation and how far it trafficked in the cell, there was no correlation between aggregation and the severity of the disease. On the other hand, recessive mutations were uniquely distinguished from dominant mutations by both the low potential for aggregation and their trafficking to the cell surface. In the course of these studies, it was also noted that the potential for aggregation and the trafficking of mutant pmp22s is influenced by the nature and/or location of the epitope tag.
Neurobiology of Disease 12/2004; 17(2):300-9. · 5.40 Impact Factor
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ABSTRACT: Mutations in the gene encoding the peripheral myelin protein 22 (PMP22), a tetraspan protein in compact peripheral myelin, are one of the causes of inherited demyelinating peripheral neuropathy. Most PMP22 mutations alter the trafficking of the PMP22 protein in Schwann cells, and this different trafficking has been proposed as the underlying mechanism of the disease. To explore this problem further, we compared the aggregation of wild-type Pmp22 with those of the two Pmp22 mutations found in Trembler (Tr) and Trembler J (TrJ) mice. All three Pmp22s can be crosslinked readily as homodimers in transfected cells. Wild-type Pmp22 also forms heterodimers with Tr and TrJ Pmp22, and these heterodimers traffic with their respective mutant Pmp22 homodimers. All three Pmp22s form complexes larger than dimers with Tr Pmp22 especially prone to aggregate into high molecular weight complexes. Despite the differences in aggregation of Tr and TrJ Pmp22, these two mutant Pmp22s sequester the same amount of wild-type Pmp22 in heterodimers and heterooligomers. Thus, the differences in the phenotypes of Tr and TrJ mice may depend more on the ability of the mutant protein to aggregate than on the dominant-negative effect of the mutant Pmp22 on wild-type Pmp22 trafficking.
Proceedings of the National Academy of Sciences 02/2002; 99(1):483-8. · 9.68 Impact Factor
