Pleiotropic role of TRAF7 in skull-base meningiomas and congenital heart disease.
Ketu Mishra-GorurTanyeri BarakLeon D KaulenOctavian HenegariuSheng Chih JinStephanie Marie AguileraEzgi YalbirGizem GolesSayoko NishimuraDanielle MiyagishimaLydia DjenouneSelin AltinokDevendra K RaiStephen VivianoAndrew PrendergastCynthia ZerilloKent OzcanBurcin BaranLeman SencarNukte GocYanki YarmanA Gulhan Ercan-SencicekKaya BilguvarRichard P LiftonJennifer MoliternoAngeliki LouviShiaulou YuanEngin DenizMartina BruecknerMurat GunelPublished in: Proceedings of the National Academy of Sciences of the United States of America (2023)
While somatic variants of TRAF7 (Tumor necrosis factor receptor-associated factor 7) underlie anterior skull-base meningiomas, here we report the inherited mutations of TRAF7 that cause congenital heart defects. We show that TRAF7 mutants operate in a dominant manner, inhibiting protein function via heterodimerization with wild-type protein. Further, the shared genetics of the two disparate pathologies can be traced to the common origin of forebrain meninges and cardiac outflow tract from the TRAF7- expressing neural crest. Somatic and inherited mutations disrupt TRAF7-IFT57 interactions leading to cilia degradation. TRAF7 -mutant meningioma primary cultures lack cilia, and TRAF7 knockdown causes cardiac, craniofacial, and ciliary defects in Xenopus and zebrafish, suggesting a mechanistic convergence for TRAF7 -driven meningiomas and developmental heart defects.