AMPA receptor GluA2 subunit defects are a cause of neurodevelopmental disorders

Salpietro, V; Dixon, Cl; Guo, H; Bello, Od; Vandrovcova, J; Efthymiou, S; Maroofian, R; Heimer, G; Burglen, L; Valence, S; Torti, E; Hacke, M; Rankin, J; Tariq, H; Colin, E; Procaccio, V; Striano, P; Mankad, K; Lieb, A; Chen, S; Pisani, L; Bettencourt, C; Männikkö, R; Manole, A; Brusco, A; Grosso, E; Ferrero, Gb; Armstrong-Moron, J; Gueden, S; Bar-Yosef, O; Tzadok, M; Monaghan, Kg; Santiago-Sim, T; Person, Re; Cho, Mt; Willaert, R; Yoo, Y; Chae, Jh; Quan, Y; H, Wu; Wang, T; Bernier, Ra; Xia, K; Blesson, A; Jain, M; Motazacker, Mm; Jaeger, B; Schneider, Al; Boysen, K; Muir, Am; Myers, Ct; Gavrilova, Rh; Gunderson, L; Schultz-Rogers, L; Klee, Ew; Dyment, D; Osmond, M; Parellada, M; Llorente, C; Gonzalez-Peñas, J; Carracedo, A; Van Haeringen, A; Ruivenkamp, C; Nava, C; Heron, D; Nardello, R; Iacomino, M; Minetti, C; Skabar, A; Fabretto, A; SYNAPS Study Group,; Raspall-Chaure, M; Chez, M; Tsai, A; Fassi, E; Shinawi, M; Constantino, Jn; De Zorzi, R; Fortuna, S; Kok, F; Keren, B; Bonneau, D; Choi, M; Benzeev, B; Zara, F; Mefford, Hc; Scheffer, Ie; Clayton-Smith, J; Macaya, A; Rothman, Je; Eichler, Ee; Kullmann, Dm; Houlden, H; Hanna, Mg; Bugiardini, E; Hostettler, I; O'Callaghan, B; Khan, A; Cortese, A; O'Connor, E; Yau, Wy; Bourinaris, T; Kaiyrzhanov, R; Chelban, V; Madej, M; Diana, Mc; Vari, Ms; Pedemonte, M; Bruno, C; Balagura, G; Scala, M; Fiorillo, C; Nobili, L; Malintan, Nt; Zanetti, Mn; Krishnakumar, Ss; Lignani, G; Jec, Jepson; Broda, P; Baldassari, S; Rossi, P; Fruscione, F; Madia, F; Traverso, M; De-Marco, P; Pérez-Dueñas, B; Munell, F; Kriouile, Y; El-Khorassani, M; Karashova, B; Avdjieva, D; Kathom, H; Tincheva, R; Van-Maldergem, L; Nachbauer, W; Boesch, S; Gagliano, A; Amadori, E; Goraya, Js; Sultan, T; Kirmani, S; Ibrahim, S; Jan, F; Mine, J; Banu, S; Veggiotti, P; Zuccotti, Gv; Ferrari, Md; Van Den Maagdenberg AMJ,; Verrotti, A; Marseglia, Gl; Savasta, S; Soler, Ma; Scuderi, C; Borgione, E; Chimenz, R; Gitto, E; Dipasquale, V; Sallemi, A; Fusco, M; Cuppari, C; Cutrupi, Mc; Ruggieri, M; Cama, A; Capra, V; Mencacci, Ne; Boles, R; Gupta, N; Kabra, M; Papacostas, S; Zamba-Papanicolaou, E; Dardiotis, E; Maqbool, S; Rana, N; Atawneh, O; Lim, Sy; Shaikh, F; Koutsis, G; Breza, M; Coviello, Da; Dauvilliers, Ya; Alkhawaja, I; Alkhawaja, M; Al-Mutairi, F; Stojkovic, T; Ferrucci, V; Zollo, M; Alkuraya, Fs; Kinali, M; Sherifa, H; Benrhouma, H; Iby, Turki; Tazir, M; Obeid, M; Bakhtadze, S; Saadi, Nw; Zaki, Ms; Triki, Cc; Benfenati, F; Gustincich, S; Kara, M; Belcastro, V; Specchio, N; Capovilla, G; Karimiani, Eg; Salih, Am; Okubadejo, Nu; Ojo, Oo; Oshinaike, Oo; Oguntunde, O; Wahab, K; Bello, Ah; Abubakar, S; Obiabo, Y; Nwazor, E; Ekenze, O; Williams, U; Iyagba, A; Taiwo, L; Komolafe, M; Senkevich, K; Shashkin, C; Zharkynbekova, N; Koneyev, K; Manizha, G; Isrofilov, M; Guliyeva, U; Salayev, K; Khachatryan, S; Rossi, S; Silvestri, G; Haridy, N; Ramenghi, La; Xiromerisiou, G; David, E; Aguennouz, M; Fidani, L; Spanaki, C; Tucci, A.

doi:10.1038/s41467-019-10910-w

AMPA receptors (AMPARs) are tetrameric ligand-gated channels made up of combinations of GluA1-4 subunits encoded by GRIA1-4 genes. GluA2 has an especially important role because, following post-transcriptional editing at the Q607 site, it renders heteromultimeric AMPARs Ca2+-impermeable, with a linear relationship between current and trans-membrane voltage. Here, we report heterozygous de novo GRIA2 mutations in 28 unrelated patients with intellectual disability (ID) and neurodevelopmental abnormalities including autism spectrum disorder (ASD), Rett syndrome-like features, and seizures or developmental epileptic encephalopathy (DEE). In functional expression studies, mutations lead to a decrease in agonist-evoked current mediated by mutant subunits compared to wild-type channels. When GluA2 subunits are co-expressed with GluA1, most GRIA2 mutations cause a decreased current amplitude and some also affect voltage rectification. Our results show that de-novo variants in GRIA2 can cause neurodevelopmental disorders, complementing evidence that other genetic causes of ID, ASD and DEE also disrupt glutamatergic synaptic transmission.