LAUSR

ABSTRACT Huntington's disease (HD) is a heritable neurodegenerative disorder, and has been characterized as an increase of oxidative stress in brain regions. In our previous results, we showed fibroblast growth factor 9 (FGF9) provides neuroprotective functions to suppress cell death in HD striatal cells dominantly through ERK signalling. However, whether the working mechanism of FGF9 is related to anti‐oxidative stress in HD is still unknown. In this study, STHdhQ7/Q7 (Q7) and STHdhQ111/Q111 (Q111) striatal knock‐in cell lines were used to examine the neuroprotective effects of FGF9 against oxidative stress in HD. Results show that FGF9 alleviates oxidative stress induced by starvation in Q7 and Q111 cells. The treatment of FGF9 not only induces upregulation and activation of nuclear factor erythroid 2‐like 2 (Nrf2), a critical transcription factor for anti‐oxidative stress, but also further upregulates its downstream targets, such as superoxide dismutase 2, gamma‐glutamylcysteine synthetase and glutathione reductase. Furthermore, blockage of the Nrf2 pathway abolishes the anti‐oxidative functions of FGF9, and inhibition of ERK signalling reduces the activation of the FGF9‐Nrf2 pathway, resulting in higher level of oxidative stress in HD cells. These results support the neuroprotective effects of FGF9 against oxidative stress through the ERK‐Nrf2 pathway, and imply one of potential strategies for therapy of HD. Graphical abstract Figure. No Caption available. HighlightsFGF9 reduces oxidative stress in striatal cell lines of Huntington's disease(HD).FGF9 induces Nrf2 signalling, and further activates downstream genes.Blockage of the Nrf2 pathway abolishes the anti‐oxidative functions of FGF9.Inhibition of ERK signalling reduces the activation of the FGF9‐Nrf2 pathway.