Inhibition of the SUV4-20 H1 histone methyltransferase increases frataxin expression in Friedreich's ataxia patient cells.
Vilema-Enríquez G., Quinlan R., Kilfeather P., Mazzone R., Saqlain S., Del Molino Del Barrio I., Donato A., Corda G., Li F., Vedadi M., Németh AH., Brennan PE., Wade-Martins R.
The molecular mechanisms of reduced frataxin (<i>FXN</i>) expression in Friedreich's ataxia (FRDA) are linked to epigenetic modification of the <i>FXN</i> locus caused by the disease-associated GAA expansion. Here, we identify that SUV4-20 histone methyltransferases, specifically SUV4-20 H1, play an important role in the regulation of FXN expression and represent a novel therapeutic target. Using a human <i>FXN</i>-GAA-Luciferase repeat expansion genomic DNA reporter model of FRDA, we screened the Structural Genomics Consortium epigenetic probe collection. We found that pharmacological inhibition of the SUV4-20 methyltransferases by the tool compound A-196 increased the expression of FXN by ∼1.5-fold in the reporter cell line. In several FRDA cell lines and patient-derived primary peripheral blood mononuclear cells, A-196 increased FXN expression by up to 2-fold, an effect not seen in WT cells. SUV4-20 inhibition was accompanied by a reduction in H4K20me2 and H4K20me3 and an increase in H4K20me1, but only modest (1.4-7.8%) perturbation in genome-wide expression was observed. Finally, based on the structural activity relationship and crystal structure of A-196, novel small molecule A-196 analogs were synthesized and shown to give a 20-fold increase in potency for increasing <i>FXN</i> expression. Overall, our results suggest that histone methylation is important in the regulation of <i>FXN</i> expression and highlight SUV4-20 H1 as a potential novel therapeutic target for FRDA.