Abstract
BackgroundGenetically caused neurological disorders of the central nervous system (CNS) are mostly characterized by poor or even fatal clinical outcome and few or no causative treatments are available. Often, these disorders are associated with low-grade, disease-promoting inflammation, another feature shared by progressive forms of multiple sclerosis (PMS). We previously generated two mouse lines carrying distinct mutations in the oligodendrocytic PLP1 gene that have initially been identified in patients diagnosed with MS. These mutations cause a loss of PLP function leading to a histopathological and clinical phenotype common to both PMS and genetic CNS disorders, like hereditary spastic paraplegias. Importantly, neuroinflammation promotes disease progression in these models, suggesting that pharmacological modulation of inflammation might ameliorate disease outcome.MethodsWe applied teriflunomide, an approved medication for relapsing-remitting MS targeting activated T-lymphocytes, in the drinking water (10 mg/kg body weight/day). Experimental long-term treatment of PLP mutant mice was non-invasively monitored by longitudinal optical coherence tomography and by rotarod analysis. Immunomodulatory effects were subsequently analyzed by flow cytometry and immunohistochemistry and treatment effects regarding neural damage, and neurodegeneration were assessed by histology and immunohistochemistry.ResultsPreventive treatment with teriflunomide attenuated the increase in number of CD8+ cytotoxic effector T cells and fostered the proliferation of CD8+ CD122+ PD-1+ regulatory T cells in the CNS. This led to an amelioration of axonopathic features and neuron loss in the retinotectal system, also reflected by reduced thinning of the innermost retinal composite layer in longitudinal studies and ameliorated clinical outcome upon preventive long-term treatment. Treatment of immune-incompetent PLP mutants did not provide evidence for a direct, neuroprotective effect of the medication. When treatment was terminated, no rebound of neuroinflammation occurred and histopathological improvement was preserved for at least 75 days without treatment. After disease onset, teriflunomide halted ongoing axonal perturbation and enabled a recovery of dendritic arborization by surviving ganglion cells. However, neither neuron loss nor clinical features were ameliorated, likely due to already advanced neurodegeneration before treatment onset.ConclusionsWe identify teriflunomide as a possible medication not only for PMS but also for inflammation-related genetic diseases of the nervous system for which causal treatment options are presently lacking.
Highlights
Caused neurological disorders of the central nervous system (CNS) are mostly characterized by poor or even fatal clinical outcome and few or no causative treatments are available
We have previously generated two mouse mutants carrying distinct glia-related mutations in the PLP1 gene [8] that have initially been identified in patients fulfilling clinical criteria for multiple sclerosis (MS) [9, 10], a neurological CNS disorder known to be related to detrimental neuroinflammation [11, 12]
The other displayed characteristics of infantile relapsing-remitting MS responding to steroids [10], but whose later course was more typical for complicated hereditary spastic paraplegia type 2 (HSP; Gorman, personal communication), a rare genetically mediated CNS disorder which can be caused by PLP1 mutations [13]
Summary
Caused neurological disorders of the central nervous system (CNS) are mostly characterized by poor or even fatal clinical outcome and few or no causative treatments are available. We have previously generated two mouse mutants carrying distinct glia-related mutations in the PLP1 gene [8] that have initially been identified in patients fulfilling clinical criteria for multiple sclerosis (MS) [9, 10], a neurological CNS disorder known to be related to detrimental neuroinflammation [11, 12] One of these patients showed features of late-onset progressive MS [9]. The other displayed characteristics of infantile relapsing-remitting MS responding to steroids [10], but whose later course was more typical for complicated hereditary spastic paraplegia type 2 (HSP; Gorman, personal communication), a rare genetically mediated CNS disorder which can be caused by PLP1 mutations [13] In both mouse mutants, we clearly demonstrated by genetic approaches that the respective disease progression including degeneration of myelin, axon, and neuronal cell bodies is substantially driven by cytotoxic CD8+ T-lymphocytes [8]. These findings suggest that immune modulation might be a promising approach to alleviate symptoms of progressive MS and of some genetic disorders of the CNS, like HSP
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