FTY720-Mitoxy reduces toxicity associated with MSA-like α-synuclein and oxidative stress by increasing trophic factor expression and myelin protein in OLN-93 oligodendroglia cell cultures.

Multiple system atrophy (MSA) is a fatal demyelinating disorder lacking any disease-modifying therapies. MSA pathology stems from aggregated α-synuclein (aSyn) accumulation in glial cytosolic inclusions of oligodendroglial cell (OLGs), the myelinating cells of brain. In MSA brains and in MSA animal models with aSyn accumulation in OLGs, aberrant expression of brain-derived neurotrophic factor (BDNF) and glial-cell-line-derived neurotrophic factor (GDNF) occur. Nerve growth factor (NGF) expression can also be altered in neurodegenerative diseases. It is unclear if oxidative stress impacts the viability of aSyn-accumulating OLG cells. Here, we show that OLN-93 cells stably expressing human wild type aSyn or the MSA-associated-aSyn-mutants G51D or A53E, are more vulnerable to oxidative stress. In dose response studies we found that OLN-93 cells treated 48 h with 160 nM FTY720 or our new non-immunosuppressive FTY720-C2 or FTY720-Mitoxy derivatives sustained normal viability. Also, FTY720, FTY720-C2, and FTY720-Mitoxy all stimulated NGF expression at 24 h. However only FTY720-Mitoxy also increased BDNF and GDNF mRNA at 24 h, an effect paralleled by increases in histone 3 acetylation and ERK1/2 phosphorylation. Myelin associated glycoprotein (MAG) levels were also increased in OLN-93 cells after 48 h treatment with FTY720-Mitoxy. FTY720, FTY720-C2, and FTY720-Mitoxy all prevented oxidative-stress-associated-cell-death of OLN-93 cells that lack any aSyn expression. However, only FTY720-Mitoxy protected MSA-like aSyn-expressing-OLN-93-cells against oxidative-cell-death. These data identify potent protective effects for FTY720-Mitoxy with regard to trophic factors as well as MAG expression by OLG cells. Testing of FTY720-Mitoxy in mice is thus a judicious next step for neuropharmacological preclinical development.
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