Mutant IDH1 inhibition induces dsDNA sensing to activate tumor immunity.
Meng-Ju WuHiroshi KondoAshwin V KammulaLei ShiYi XiaoSofiene DhiabQin XuChloe J SlaterOmar I AvilaJoshua MerrittHiroyuki KatoPrabhat KattelJonathan H SussmanIlaria GrittiJason EcclestonYi SunHyo Min ChoKira E OlanderTakeshi KatsudaDiana D ShiMilan R SavaniBailey C SmithJames M ClearyRaul MostoslavskyVindhya VijayYosuke KitagawaHiroaki WakimotoRussell William JenkinsKathleen B YatesJihye PaikAnia TassinariHatice Duygu SaatciogluAdriana E TronWilhelm HaasDaniel P CahillSamuel K McBrayerRobert T MangusoNabeel El-BardeesyPublished in: Science (New York, N.Y.) (2024)
Isocitrate dehydrogenase 1 ( IDH1 ) is the most commonly mutated metabolic gene across human cancers. Mutant IDH1 (mIDH1) generates the oncometabolite (R)-2-hydroxyglutarate, disrupting enzymes involved in epigenetics and other processes. A hallmark of IDH1 -mutant solid tumors is T cell exclusion, whereas mIDH1 inhibition in preclinical models restores antitumor immunity. Here, we define a cell-autonomous mechanism of mIDH1-driven immune evasion. IDH1 -mutant solid tumors show selective hypermethylation and silencing of the cytoplasmic double-stranded DNA (dsDNA) sensor CGAS , compromising innate immune signaling. mIDH1 inhibition restores DNA demethylation, derepressing CGAS and transposable element (TE) subclasses. dsDNA produced by TE-reverse transcriptase (TE-RT) activates cGAS, triggering viral mimicry and stimulating antitumor immunity. In summary, we demonstrate that mIDH1 epigenetically suppresses innate immunity and link endogenous RT activity to the mechanism of action of a US Food and Drug Administration-approved oncology drug.