Fig. 3

YTHDF1 binds m6A on ADAR1 mRNA boosting its translation without affecting decay. a Box plot showing YTHDF1 mRNA levels in GBM (red box) versus normal brain (blue box) (GEPIA 2, * p ≤ 0.05). b qRT-PCR of YTHDF1 and ADAR1 in siYTHDF1 U87MG cells (24–48 h post transfection-pt). On the right, western blotting analysis (48 h pt) of ADAR1 in siYTHDF1 U87MG cells is shown. GAPDH was used as control. c Relative enrichment of ADAR1 mRNA in YTHDF1-RIP (using two different antibodies Ab1 and Ab2) over IgG in U87MG cells. HPRT expression was used as negative control (n = 3) Values are represented as means ± SD, * p ≤ 0.05. d Ribosomal immunoprecipitation was performed in siYTHDF1 and siscr U87MG cells transfected with an RPL22-FLAG construct. Left, is shown a control western blotting analysis, while on the right, a qRT-PCR is shown. HPRT was used as control (n = 3). Values are represented as means ± SD, ** p ≤ 0.01. e ADAR1 mRNA stability in control and siYTHDF1 U87MG cells was determined by qRT-PCR after actinomycin D (5 μg/ml) treatment in the time indicated. Values are represented as means ± SD. On the right, the qRT-PCR of YTHDF1 silencing. Values are represented as means ± SD, *** p ≤ 0.001, n = 2. f Western blotting analysis of siYTHDF1 and control U87MG cells treated with or without MG132 at different concentrations (indicated in the figure); ADAR2 and ubiquitin Ab (Ubi) were used as controls. On the right, siYTHDF1 and sictrl U87MG cells were treated with or without 1.25 μM MG132 for 24 h. GAPDH was used as loading control. Values are represented as means ± SD, * p ≤ 0.05