Small-molecule arone protects from neuroinflammation in LPS-activated microglia BV-2 cells by targeting histone-remodeling chaperone ASF1a.

Histone post-translational modifications (PTMs) have been shown to be highly associated with inflammation response, suggesting a therapeutic significance of pharmacologically editing histone PTMs. Currently reported anti-inflammation small-molecules mainly target histone PTMs writers or erasers for methylation, phosphorylation, and acetylation. Although histone chaperones also appear to be involved in inflammation signaling cascades, whether small-molecules could target histone chaperones to show anti-inflammation effects has still been rarely discovered. In this study, natural product artone was found to show obvious inhibitory effects on microglia-mediated neuroinflammation by directly targeting ASF1a, which is a histone-remodeling chaperone. Mechanism study revealed that artone modulated histone H3 PTMs profile by down-regulating acetylation and trimethylation modification levels at sites K4, K9, K18 and K27. Artone-dependent regulations on PTMs further caused an effective inhibition on transcription factor NF-κB assembling to promoters of pro-inflammatory cytokine genes including Tnf-α, Il-6 and Rgs3, indicating a distinctive anti-neuroinflammation mechanism. Collectively, we reported artone as the first small-molecule targeting histone-remodeling chaperone ASF1a for anti-neuroinflammation. Moreover, these findings broaden our knowledge of histone chaperone as a druggable target protein for neuroinflammation inhibition, and open a new avenue to novel therapy strategy for inflammation-associated neurological disorders.