Peripherally derived FGF21 promotes remyelination in the central nervous system
Mariko Kuroda, Rieko Muramatsu, Noriko Maedera, Yoshihisa Koyama, Machika Hamaguchi, Harutoshi Fujimura, Mari Yoshida, Morichika Konishi, Nobuyuki Itoh, Hideki Mochizuki, Toshihide Yamashita
Mariko Kuroda, Rieko Muramatsu, Noriko Maedera, Yoshihisa Koyama, Machika Hamaguchi, Harutoshi Fujimura, Mari Yoshida, Morichika Konishi, Nobuyuki Itoh, Hideki Mochizuki, Toshihide Yamashita
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Research Article Angiogenesis Neuroscience

Peripherally derived FGF21 promotes remyelination in the central nervous system

Abstract

Demyelination in the central nervous system (CNS) leads to severe neurological deficits that can be partially reversed by spontaneous remyelination. Because the CNS is isolated from the peripheral milieu by the blood-brain barrier, remyelination is thought to be controlled by the CNS microenvironment. However, in this work we found that factors derived from peripheral tissue leak into the CNS after injury and promote remyelination in a murine model of toxin-induced demyelination. Mechanistically, leakage of circulating fibroblast growth factor 21 (FGF21), which is predominantly expressed by the pancreas, drives proliferation of oligodendrocyte precursor cells (OPCs) through interactions with β-klotho, an essential coreceptor of FGF21. We further confirmed that human OPCs expressed β-klotho and proliferated in response to FGF21 in vitro. Vascular barrier disruption is a common feature of many CNS disorders; thus, our findings reveal a potentially important role for the peripheral milieu in promoting CNS regeneration.

Authors

Mariko Kuroda, Rieko Muramatsu, Noriko Maedera, Yoshihisa Koyama, Machika Hamaguchi, Harutoshi Fujimura, Mari Yoshida, Morichika Konishi, Nobuyuki Itoh, Hideki Mochizuki, Toshihide Yamashita

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Figure 2

Circulating FGF21 promotes OPC proliferation.

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Circulating FGF21 promotes OPC proliferation. (A) Concentration-dependen...
(A) Concentration-dependence of BrdU incorporation in A2B5+ OPCs cultured with adult mice serum (n = 6). (B) BrdU incorporation in A2B5+ OPCs 1 day after stimulation with adult mouse serum heated or pretreated with the indicated reagents (n = 6). (C) BrdU incorporation in OPCs after serum stimulation with PD173074 (10 nM), an inhibitor of FGFR (n = 4). (D) BrdU incorporation in OPCs after serum stimulation with NF449 (10 μM), an inhibitor of FGFR3 (n = 4). (E) BrdU incorporation in mouse OPCs with FGFR and β-klotho knockdown after serum stimulation (n = 7). (F) BrdU incorporation in OPCs after stimulation with recombinant FGF15, FGF21, and FGF23 (n = 4). (G) BrdU incorporation in OPCs after serum stimulation with neutralizing antibody against FGF21 (n = 5), determined by Student’s t test or by ANOVA with Tukey’s post hoc test or Dunnett’s test. Error bars represent SEM. *P < 0.05, **P < 0.01.