Your search keyword '"Afawi Z"' showing total 119 results

1. GWAS meta-analysis of over 29,000 people with epilepsy identifies 26 risk loci and subtype-specific genetic architecture

Author

Stevelink, R, Campbell, C, Chen, S, Abou-Khalil, B, Adesoji, OM, Afawi, Z, Amadori, E, Anderson, A, Anderson, J, Andrade, DM, Annesi, G, Auce, P, Avbersek, A, Bahlo, M, Baker, MD, Balagura, G, Balestrini, S, Barba, C, Barboza, K, Bartolomei, F, Bast, T, Baum, L, Baumgartner, T, Baykan, B, Bebek, N, Becker, AJ, Becker, F, Bennett, CA, Berghuis, B, Berkovic, SF, Beydoun, A, Bianchini, C, Bisulli, F, Blatt, I, Bobbili, DR, Borggraefe, I, Bosselmann, C, Braatz, V, Bradfield, JP, Brockmann, K, Brody, LC, Buono, RJ, Busch, RM, Caglayan, H, Campbell, E, Canafoglia, L, Canavati, C, Cascino, GD, Castellotti, B, Catarino, CB, Cavalleri, GL, Cerrato, F, Chassoux, F, Cherny, SS, Cheung, C-L, Chinthapalli, K, Chou, I-J, Chung, S-K, Churchhouse, C, Clark, PO, Cole, AJ, Compston, A, Coppola, A, Cosico, M, Cossette, P, Craig, JJ, Cusick, C, Daly, MJ, Davis, LK, de Haan, G-J, Delanty, N, Depondt, C, Derambure, P, Devinsky, O, Di Vito, L, Dlugos, DJ, Doccini, V, Doherty, CP, El-Naggar, H, Elger, CE, Ellis, CA, Eriksson, JG, Faucon, A, Feng, Y-CA, Ferguson, L, Ferraro, TN, Ferri, L, Feucht, M, Fitzgerald, M, Fonferko-Shadrach, B, Fortunato, F, Franceschetti, S, Franke, A, French, JA, Freri, E, Gagliardi, M, Gambardella, A, Geller, EB, Giangregorio, T, Gjerstad, L, Glauser, T, Goldberg, E, Goldman, A, Granata, T, Greenberg, DA, Guerrini, R, Gupta, N, Haas, KF, Hakonarson, H, Hallmann, K, Hassanin, E, Hegde, M, Heinzen, EL, Helbig, I, Hengsbach, C, Heyne, HO, Hirose, S, Hirsch, E, Hjalgrim, H, Howrigan, DP, Hucks, D, Hung, P-C, Iacomino, M, Imbach, LL, Inoue, Y, Ishii, A, Jamnadas-Khoda, J, Jehi, L, Johnson, MR, Kalviainen, R, Kamatani, Y, Kanaan, M, Kanai, M, Kantanen, A-M, Kara, B, Kariuki, SM, Kasperaviciute, D, Trenite, DK-N, Kato, M, Kegele, J, Kesim, Y, Khoueiry-Zgheib, N, King, C, Kirsch, HE, Klein, KM, Kluger, G, Knake, S, Knowlton, RC, Koeleman, BPC, Korczyn, AD, Koupparis, A, Kousiappa, I, Krause, R, Krenn, M, Krestel, H, Krey, I, Kunz, WS, Kurki, MI, Kurlemann, G, Kuzniecky, R, Kwan, P, Labate, A, Lacey, A, Lal, D, Landoulsi, Z, Lau, Y-L, Lauxmann, S, Leech, SL, Lehesjoki, A-E, Lemke, JR, Lerche, H, Lesca, G, Leu, C, Lewin, N, Lewis-Smith, D, Li, GH-Y, Li, QS, Licchetta, L, Lin, K-L, Lindhout, D, Linnankivi, T, Lopes-Cendes, I, Lowenstein, DH, Lui, CHT, Madia, F, Magnusson, S, Marson, AG, May, P, McGraw, CM, Mei, D, Mills, JL, Minardi, R, Mirza, N, Moller, RS, Molloy, AM, Montomoli, M, Mostacci, B, Muccioli, L, Muhle, H, Mueller-Schlueter, K, Najm, IM, Nasreddine, W, Neale, BM, Neubauer, B, Newton, CRJC, Noethen, MM, Nothnagel, M, Nuernberg, P, O'Brien, TJ, Okada, Y, Olafsson, E, Oliver, KL, Ozkara, C, Palotie, A, Pangilinan, F, Papacostas, SS, Parrini, E, Pato, CN, Pato, MT, Pendziwiat, M, Petrovski, S, Pickrell, WO, Pinsky, R, Pippucci, T, Poduri, A, Pondrelli, F, Powell, RHW, Privitera, M, Rademacher, A, Radtke, R, Ragona, F, Rau, S, Rees, MI, Regan, BM, Reif, PS, Rhelms, S, Riva, A, Rosenow, F, Ryvlin, P, Saarela, A, Sadleir, LG, Sander, JW, Sander, T, Scala, M, Scattergood, T, Schachter, SC, Schankin, CJ, Scheffer, IE, Schmitz, B, Schoch, S, Schubert-Bast, S, Schulze-Bonhage, A, Scudieri, P, Sham, P, Sheidley, BR, Shih, JJ, Sills, GJ, Sisodiya, SM, Smith, MC, Smith, PE, Sonsma, ACM, Speed, D, Sperling, MR, Stefansson, H, Stefansson, K, Steinhoff, BJ, Stephani, U, Stewart, WC, Stipa, C, Striano, P, Stroink, H, Strzelczyk, A, Surges, R, Suzuki, T, Tan, KM, Taneja, RS, Tanteles, GA, Tauboll, E, Thio, LL, Thomas, GN, Thomas, RH, Timonen, O, Tinuper, P, Todaro, M, Topaloglu, P, Tozzi, R, Tsai, M-H, Tumiene, B, Turkdogan, D, Unnsteinsdottir, U, Utkus, A, Vaidiswaran, P, Valton, L, van Baalen, A, Vetro, A, Vining, EPG, Visscher, F, von Brauchitsch, S, von Wrede, R, Wagner, RG, Weber, YG, Weckhuysen, S, Weisenberg, J, Weller, M, Widdess-Walsh, P, Wolff, M, Wolking, S, Wu, D, Yamakawa, K, Yang, W, Yapici, Z, Yucesan, E, Zagaglia, S, Zahnert, F, Zara, F, Zhou, W, Zimprich, F, Zsurka, G, Ali, QZ, Stevelink, R, Campbell, C, Chen, S, Abou-Khalil, B, Adesoji, OM, Afawi, Z, Amadori, E, Anderson, A, Anderson, J, Andrade, DM, Annesi, G, Auce, P, Avbersek, A, Bahlo, M, Baker, MD, Balagura, G, Balestrini, S, Barba, C, Barboza, K, Bartolomei, F, Bast, T, Baum, L, Baumgartner, T, Baykan, B, Bebek, N, Becker, AJ, Becker, F, Bennett, CA, Berghuis, B, Berkovic, SF, Beydoun, A, Bianchini, C, Bisulli, F, Blatt, I, Bobbili, DR, Borggraefe, I, Bosselmann, C, Braatz, V, Bradfield, JP, Brockmann, K, Brody, LC, Buono, RJ, Busch, RM, Caglayan, H, Campbell, E, Canafoglia, L, Canavati, C, Cascino, GD, Castellotti, B, Catarino, CB, Cavalleri, GL, Cerrato, F, Chassoux, F, Cherny, SS, Cheung, C-L, Chinthapalli, K, Chou, I-J, Chung, S-K, Churchhouse, C, Clark, PO, Cole, AJ, Compston, A, Coppola, A, Cosico, M, Cossette, P, Craig, JJ, Cusick, C, Daly, MJ, Davis, LK, de Haan, G-J, Delanty, N, Depondt, C, Derambure, P, Devinsky, O, Di Vito, L, Dlugos, DJ, Doccini, V, Doherty, CP, El-Naggar, H, Elger, CE, Ellis, CA, Eriksson, JG, Faucon, A, Feng, Y-CA, Ferguson, L, Ferraro, TN, Ferri, L, Feucht, M, Fitzgerald, M, Fonferko-Shadrach, B, Fortunato, F, Franceschetti, S, Franke, A, French, JA, Freri, E, Gagliardi, M, Gambardella, A, Geller, EB, Giangregorio, T, Gjerstad, L, Glauser, T, Goldberg, E, Goldman, A, Granata, T, Greenberg, DA, Guerrini, R, Gupta, N, Haas, KF, Hakonarson, H, Hallmann, K, Hassanin, E, Hegde, M, Heinzen, EL, Helbig, I, Hengsbach, C, Heyne, HO, Hirose, S, Hirsch, E, Hjalgrim, H, Howrigan, DP, Hucks, D, Hung, P-C, Iacomino, M, Imbach, LL, Inoue, Y, Ishii, A, Jamnadas-Khoda, J, Jehi, L, Johnson, MR, Kalviainen, R, Kamatani, Y, Kanaan, M, Kanai, M, Kantanen, A-M, Kara, B, Kariuki, SM, Kasperaviciute, D, Trenite, DK-N, Kato, M, Kegele, J, Kesim, Y, Khoueiry-Zgheib, N, King, C, Kirsch, HE, Klein, KM, Kluger, G, Knake, S, Knowlton, RC, Koeleman, BPC, Korczyn, AD, Koupparis, A, Kousiappa, I, Krause, R, Krenn, M, Krestel, H, Krey, I, Kunz, WS, Kurki, MI, Kurlemann, G, Kuzniecky, R, Kwan, P, Labate, A, Lacey, A, Lal, D, Landoulsi, Z, Lau, Y-L, Lauxmann, S, Leech, SL, Lehesjoki, A-E, Lemke, JR, Lerche, H, Lesca, G, Leu, C, Lewin, N, Lewis-Smith, D, Li, GH-Y, Li, QS, Licchetta, L, Lin, K-L, Lindhout, D, Linnankivi, T, Lopes-Cendes, I, Lowenstein, DH, Lui, CHT, Madia, F, Magnusson, S, Marson, AG, May, P, McGraw, CM, Mei, D, Mills, JL, Minardi, R, Mirza, N, Moller, RS, Molloy, AM, Montomoli, M, Mostacci, B, Muccioli, L, Muhle, H, Mueller-Schlueter, K, Najm, IM, Nasreddine, W, Neale, BM, Neubauer, B, Newton, CRJC, Noethen, MM, Nothnagel, M, Nuernberg, P, O'Brien, TJ, Okada, Y, Olafsson, E, Oliver, KL, Ozkara, C, Palotie, A, Pangilinan, F, Papacostas, SS, Parrini, E, Pato, CN, Pato, MT, Pendziwiat, M, Petrovski, S, Pickrell, WO, Pinsky, R, Pippucci, T, Poduri, A, Pondrelli, F, Powell, RHW, Privitera, M, Rademacher, A, Radtke, R, Ragona, F, Rau, S, Rees, MI, Regan, BM, Reif, PS, Rhelms, S, Riva, A, Rosenow, F, Ryvlin, P, Saarela, A, Sadleir, LG, Sander, JW, Sander, T, Scala, M, Scattergood, T, Schachter, SC, Schankin, CJ, Scheffer, IE, Schmitz, B, Schoch, S, Schubert-Bast, S, Schulze-Bonhage, A, Scudieri, P, Sham, P, Sheidley, BR, Shih, JJ, Sills, GJ, Sisodiya, SM, Smith, MC, Smith, PE, Sonsma, ACM, Speed, D, Sperling, MR, Stefansson, H, Stefansson, K, Steinhoff, BJ, Stephani, U, Stewart, WC, Stipa, C, Striano, P, Stroink, H, Strzelczyk, A, Surges, R, Suzuki, T, Tan, KM, Taneja, RS, Tanteles, GA, Tauboll, E, Thio, LL, Thomas, GN, Thomas, RH, Timonen, O, Tinuper, P, Todaro, M, Topaloglu, P, Tozzi, R, Tsai, M-H, Tumiene, B, Turkdogan, D, Unnsteinsdottir, U, Utkus, A, Vaidiswaran, P, Valton, L, van Baalen, A, Vetro, A, Vining, EPG, Visscher, F, von Brauchitsch, S, von Wrede, R, Wagner, RG, Weber, YG, Weckhuysen, S, Weisenberg, J, Weller, M, Widdess-Walsh, P, Wolff, M, Wolking, S, Wu, D, Yamakawa, K, Yang, W, Yapici, Z, Yucesan, E, Zagaglia, S, Zahnert, F, Zara, F, Zhou, W, Zimprich, F, Zsurka, G, and Ali, QZ

Abstract

Epilepsy is a highly heritable disorder affecting over 50 million people worldwide, of which about one-third are resistant to current treatments. Here we report a multi-ancestry genome-wide association study including 29,944 cases, stratified into three broad categories and seven subtypes of epilepsy, and 52,538 controls. We identify 26 genome-wide significant loci, 19 of which are specific to genetic generalized epilepsy (GGE). We implicate 29 likely causal genes underlying these 26 loci. SNP-based heritability analyses show that common variants explain between 39.6% and 90% of genetic risk for GGE and its subtypes. Subtype analysis revealed markedly different genetic architectures between focal and generalized epilepsies. Gene-set analyses of GGE signals implicate synaptic processes in both excitatory and inhibitory neurons in the brain. Prioritized candidate genes overlap with monogenic epilepsy genes and with targets of current antiseizure medications. Finally, we leverage our results to identify alternate drugs with predicted efficacy if repurposed for epilepsy treatment.

Published

2023

2. NEXMIF encephalopathy: an X-linked disorder with male and female phenotypic patterns

Author

Stamberger, H., Hammer, T.B., Gardella, E., Vlaskamp, D.R.M., Bertelsen, B., Mandelstam, S., Lange, I. de, Zhang, J., Myers, C.T., Fenger, C., Afawi, Z., Fuerte, E.P. Almanza, Andrade, D.M., Balcik, Y., Zeev, B. Ben, Bennett, M.F., Berkovic, S.F., Isidor, B., Bouman, A., Brilstra, E., Ø, L. Busk, Cairns, A., Caumes, R., Chatron, N., Dale, R.C., Geus, C. de, Edery, P., Gill, D., Granild-Jensen, J.B., Gunderson, L., Gunning, B., Heimer, G., Helle, J.R., Hildebrand, M.S., Hollingsworth, G., Kharytonov, V., Klee, E.W., Koeleman, B.P.C., Koolen, D.A., Korff, C., Küry, S., Lesca, G., Lev, D., Leventer, R.J., Mackay, M.T., Macke, E.L., McEntagart, M., Mohammad, S.S., Monin, P., Montomoli, M., Morava, E., Moutton, S., Muir, A.M., Parrini, E., Procopis, P., Ranza, E., Reed, L., Reif, P.S., Rosenow, F., Rossi, M., Sadleir, L.G., Sadoway, T., Schelhaas, H.J., Schneider, A.L., Shah, K., Shalev, R., Sisodiya, S.M., Smol, T., Stumpel, C., Stuurman, K., Symonds, J.D., Mau-Them, F.T., Verbeek, N., Verhoeven, J.S., Wallace, G., Yosovich, K., Zarate, Y.A., Zerem, A., Zuberi, S.M., Guerrini, R., Mefford, H.C., Patel, C., Zhang, Y.H., Møller, R.S., Scheffer, I.E., Stamberger, H., Hammer, T.B., Gardella, E., Vlaskamp, D.R.M., Bertelsen, B., Mandelstam, S., Lange, I. de, Zhang, J., Myers, C.T., Fenger, C., Afawi, Z., Fuerte, E.P. Almanza, Andrade, D.M., Balcik, Y., Zeev, B. Ben, Bennett, M.F., Berkovic, S.F., Isidor, B., Bouman, A., Brilstra, E., Ø, L. Busk, Cairns, A., Caumes, R., Chatron, N., Dale, R.C., Geus, C. de, Edery, P., Gill, D., Granild-Jensen, J.B., Gunderson, L., Gunning, B., Heimer, G., Helle, J.R., Hildebrand, M.S., Hollingsworth, G., Kharytonov, V., Klee, E.W., Koeleman, B.P.C., Koolen, D.A., Korff, C., Küry, S., Lesca, G., Lev, D., Leventer, R.J., Mackay, M.T., Macke, E.L., McEntagart, M., Mohammad, S.S., Monin, P., Montomoli, M., Morava, E., Moutton, S., Muir, A.M., Parrini, E., Procopis, P., Ranza, E., Reed, L., Reif, P.S., Rosenow, F., Rossi, M., Sadleir, L.G., Sadoway, T., Schelhaas, H.J., Schneider, A.L., Shah, K., Shalev, R., Sisodiya, S.M., Smol, T., Stumpel, C., Stuurman, K., Symonds, J.D., Mau-Them, F.T., Verbeek, N., Verhoeven, J.S., Wallace, G., Yosovich, K., Zarate, Y.A., Zerem, A., Zuberi, S.M., Guerrini, R., Mefford, H.C., Patel, C., Zhang, Y.H., Møller, R.S., and Scheffer, I.E.

Abstract

Contains fulltext : 231688.pdf (Publisher’s version ) (Closed access), PURPOSE: Pathogenic variants in the X-linked gene NEXMIF (previously KIAA2022) are associated with intellectual disability (ID), autism spectrum disorder, and epilepsy. We aimed to delineate the female and male phenotypic spectrum of NEXMIF encephalopathy. METHODS: Through an international collaboration, we analyzed the phenotypes and genotypes of 87 patients with NEXMIF encephalopathy. RESULTS: Sixty-three females and 24 males (46 new patients) with NEXMIF encephalopathy were studied, with 30 novel variants. Phenotypic features included developmental delay/ID in 86/87 (99%), seizures in 71/86 (83%) and multiple comorbidities. Generalized seizures predominated including myoclonic seizures and absence seizures (both 46/70, 66%), absence with eyelid myoclonia (17/70, 24%), and atonic seizures (30/70, 43%). Males had more severe developmental impairment; females had epilepsy more frequently, and varied from unaffected to severely affected. All NEXMIF pathogenic variants led to a premature stop codon or were deleterious structural variants. Most arose de novo, although X-linked segregation occurred for both sexes. Somatic mosaicism occurred in two males and a family with suspected parental mosaicism. CONCLUSION: NEXMIF encephalopathy is an X-linked, generalized developmental and epileptic encephalopathy characterized by myoclonic-atonic epilepsy overlapping with eyelid myoclonia with absence. Some patients have developmental encephalopathy without epilepsy. Males have more severe developmental impairment. NEXMIF encephalopathy arises due to loss-of-function variants.

Published

2021

3. Sub-genic intolerance, ClinVar, and the epilepsies: A whole-exome sequencing study of 29,165 individuals

Author

Motelow, JE, Povysil, G, Dhindsa, RS, Stanley, KE, Allen, AS, Feng, Y-CA, Howrigan, DP, Abbott, LE, Tashman, K, Cerrato, F, Cusick, C, Singh, T, Heyne, H, Byrnes, AE, Churchhouse, C, Watts, N, Solomonson, M, Lal, D, Gupta, N, Neale, BM, Cavalleri, GL, Cossette, P, Cotsapas, C, De Jonghe, P, Dixon-Salazar, T, Guerrini, R, Hakonarson, H, Heinzen, EL, Helbig, I, Kwan, P, Marson, AG, Petrovski, S, Kamalakaran, S, Sisodiya, SM, Stewart, R, Weckhuysen, S, Depondt, C, Dlugos, DJ, Scheffer, IE, Striano, P, Freyer, C, Krause, R, May, P, McKenna, K, Regan, BM, Bennett, CA, Leu, C, Leech, SL, O'Brien, TJ, Todaro, M, Stamberger, H, Andrade, DM, Ali, QZ, Sadoway, TR, Krestel, H, Schaller, A, Papacostas, SS, Kousiappa, I, Tanteles, GA, Christou, Y, Sterbova, K, Vlckova, M, Sedlackova, L, Lassuthova, P, Klein, KM, Rosenow, F, Reif, PS, Knake, S, Neubauer, BA, Zimprich, F, Feucht, M, Reinthaler, EM, Kunz, WS, Zsurka, G, Surges, R, Baumgartner, T, von Wrede, R, Pendziwiat, M, Muhle, H, Rademacher, A, van Baalen, A, von Spiczak, S, Stephani, U, Afawi, Z, Korczyn, AD, Kanaan, M, Canavati, C, Kurlemann, G, Muller-Schluter, K, Kluger, G, Haeusler, M, Blatt, I, Lemke, JR, Krey, I, Weber, YG, Wolking, S, Becker, F, Lauxmann, S, Bosselmann, C, Kegele, J, Hengsbach, C, Rau, S, Steinhoff, BJ, Schulze-Bonhage, A, Borggraefe, I, Schankin, CJ, Schubert-Bast, S, Schreiber, H, Mayer, T, Korinthenberg, R, Brockmann, K, Wolff, M, Dennig, D, Madeleyn, R, Kalviainen, R, Saarela, A, Timonen, O, Linnankivi, T, Lehesjoki, A-E, Rheims, S, Lesca, G, Ryvlin, P, Maillard, L, Valton, L, Derambure, P, Bartolomei, F, Hirsch, E, Michel, V, Chassoux, F, Rees, M, Chung, S-K, Pickrell, WO, Powell, R, Baker, MD, Fonferko-Shadrach, B, Lawthom, C, Anderson, J, Schneider, N, Balestrini, S, Zagaglia, S, Braatz, V, Johnson, MR, Auce, P, Sills, GJ, Baum, LW, Sham, PC, Cherny, SS, Lui, CHT, Delanty, N, Doherty, CP, Shukralla, A, El-Naggar, H, Widdess-Walsh, P, Barisi, N, Canafoglia, L, Franceschetti, S, Castellotti, B, Granata, T, Ragona, F, Zara, F, Iacomino, M, Riva, A, Madia, F, Vari, MS, Salpietro, V, Scala, M, Mancardi, MM, Nobili, L, Amadori, E, Giacomini, T, Bisulli, F, Pippucci, T, Licchetta, L, Minardi, R, Tinuper, P, Muccioli, L, Mostacci, B, Gambardella, A, Labate, A, Annesi, G, Manna, L, Gagliardi, M, Parrini, E, Mei, D, Vetro, A, Bianchini, C, Montomoli, M, Doccini, V, Barba, C, Hirose, S, Ishii, A, Suzuki, T, Inoue, Y, Yamakawa, K, Beydoun, A, Nasreddine, W, Zgheib, NK, Tumiene, B, Utkus, A, Sadleir, LG, King, C, Caglayan, SH, Arslan, M, Yapici, Z, Topaloglu, P, Kara, B, Yis, U, Turkdogan, D, Gundogdu-Eken, A, Bebek, N, Tsai, M-H, Ho, C-J, Lin, C-H, Lin, K-L, Chou, I-J, Poduri, A, Shiedley, BR, Shain, C, Noebels, JL, Goldman, A, Busch, RM, Jehi, L, Najm, IM, Ferguson, L, Khoury, J, Glauser, TA, Clark, PO, Buono, RJ, Ferraro, TN, Sperling, MR, Lo, W, Privitera, M, French, JA, Schachter, S, Kuzniecky, R, Devinsky, O, Hegde, M, Greenberg, DA, Ellis, CA, Goldberg, E, Helbig, KL, Cosico, M, Vaidiswaran, P, Fitch, E, Berkovic, SF, Lerche, H, Lowenstein, DH, Goldstein, DB, Motelow, JE, Povysil, G, Dhindsa, RS, Stanley, KE, Allen, AS, Feng, Y-CA, Howrigan, DP, Abbott, LE, Tashman, K, Cerrato, F, Cusick, C, Singh, T, Heyne, H, Byrnes, AE, Churchhouse, C, Watts, N, Solomonson, M, Lal, D, Gupta, N, Neale, BM, Cavalleri, GL, Cossette, P, Cotsapas, C, De Jonghe, P, Dixon-Salazar, T, Guerrini, R, Hakonarson, H, Heinzen, EL, Helbig, I, Kwan, P, Marson, AG, Petrovski, S, Kamalakaran, S, Sisodiya, SM, Stewart, R, Weckhuysen, S, Depondt, C, Dlugos, DJ, Scheffer, IE, Striano, P, Freyer, C, Krause, R, May, P, McKenna, K, Regan, BM, Bennett, CA, Leu, C, Leech, SL, O'Brien, TJ, Todaro, M, Stamberger, H, Andrade, DM, Ali, QZ, Sadoway, TR, Krestel, H, Schaller, A, Papacostas, SS, Kousiappa, I, Tanteles, GA, Christou, Y, Sterbova, K, Vlckova, M, Sedlackova, L, Lassuthova, P, Klein, KM, Rosenow, F, Reif, PS, Knake, S, Neubauer, BA, Zimprich, F, Feucht, M, Reinthaler, EM, Kunz, WS, Zsurka, G, Surges, R, Baumgartner, T, von Wrede, R, Pendziwiat, M, Muhle, H, Rademacher, A, van Baalen, A, von Spiczak, S, Stephani, U, Afawi, Z, Korczyn, AD, Kanaan, M, Canavati, C, Kurlemann, G, Muller-Schluter, K, Kluger, G, Haeusler, M, Blatt, I, Lemke, JR, Krey, I, Weber, YG, Wolking, S, Becker, F, Lauxmann, S, Bosselmann, C, Kegele, J, Hengsbach, C, Rau, S, Steinhoff, BJ, Schulze-Bonhage, A, Borggraefe, I, Schankin, CJ, Schubert-Bast, S, Schreiber, H, Mayer, T, Korinthenberg, R, Brockmann, K, Wolff, M, Dennig, D, Madeleyn, R, Kalviainen, R, Saarela, A, Timonen, O, Linnankivi, T, Lehesjoki, A-E, Rheims, S, Lesca, G, Ryvlin, P, Maillard, L, Valton, L, Derambure, P, Bartolomei, F, Hirsch, E, Michel, V, Chassoux, F, Rees, M, Chung, S-K, Pickrell, WO, Powell, R, Baker, MD, Fonferko-Shadrach, B, Lawthom, C, Anderson, J, Schneider, N, Balestrini, S, Zagaglia, S, Braatz, V, Johnson, MR, Auce, P, Sills, GJ, Baum, LW, Sham, PC, Cherny, SS, Lui, CHT, Delanty, N, Doherty, CP, Shukralla, A, El-Naggar, H, Widdess-Walsh, P, Barisi, N, Canafoglia, L, Franceschetti, S, Castellotti, B, Granata, T, Ragona, F, Zara, F, Iacomino, M, Riva, A, Madia, F, Vari, MS, Salpietro, V, Scala, M, Mancardi, MM, Nobili, L, Amadori, E, Giacomini, T, Bisulli, F, Pippucci, T, Licchetta, L, Minardi, R, Tinuper, P, Muccioli, L, Mostacci, B, Gambardella, A, Labate, A, Annesi, G, Manna, L, Gagliardi, M, Parrini, E, Mei, D, Vetro, A, Bianchini, C, Montomoli, M, Doccini, V, Barba, C, Hirose, S, Ishii, A, Suzuki, T, Inoue, Y, Yamakawa, K, Beydoun, A, Nasreddine, W, Zgheib, NK, Tumiene, B, Utkus, A, Sadleir, LG, King, C, Caglayan, SH, Arslan, M, Yapici, Z, Topaloglu, P, Kara, B, Yis, U, Turkdogan, D, Gundogdu-Eken, A, Bebek, N, Tsai, M-H, Ho, C-J, Lin, C-H, Lin, K-L, Chou, I-J, Poduri, A, Shiedley, BR, Shain, C, Noebels, JL, Goldman, A, Busch, RM, Jehi, L, Najm, IM, Ferguson, L, Khoury, J, Glauser, TA, Clark, PO, Buono, RJ, Ferraro, TN, Sperling, MR, Lo, W, Privitera, M, French, JA, Schachter, S, Kuzniecky, R, Devinsky, O, Hegde, M, Greenberg, DA, Ellis, CA, Goldberg, E, Helbig, KL, Cosico, M, Vaidiswaran, P, Fitch, E, Berkovic, SF, Lerche, H, Lowenstein, DH, and Goldstein, DB

Abstract

Both mild and severe epilepsies are influenced by variants in the same genes, yet an explanation for the resulting phenotypic variation is unknown. As part of the ongoing Epi25 Collaboration, we performed a whole-exome sequencing analysis of 13,487 epilepsy-affected individuals and 15,678 control individuals. While prior Epi25 studies focused on gene-based collapsing analyses, we asked how the pattern of variation within genes differs by epilepsy type. Specifically, we compared the genetic architectures of severe developmental and epileptic encephalopathies (DEEs) and two generally less severe epilepsies, genetic generalized epilepsy and non-acquired focal epilepsy (NAFE). Our gene-based rare variant collapsing analysis used geographic ancestry-based clustering that included broader ancestries than previously possible and revealed novel associations. Using the missense intolerance ratio (MTR), we found that variants in DEE-affected individuals are in significantly more intolerant genic sub-regions than those in NAFE-affected individuals. Only previously reported pathogenic variants absent in available genomic datasets showed a significant burden in epilepsy-affected individuals compared with control individuals, and the ultra-rare pathogenic variants associated with DEE were located in more intolerant genic sub-regions than variants associated with non-DEE epilepsies. MTR filtering improved the yield of ultra-rare pathogenic variants in affected individuals compared with control individuals. Finally, analysis of variants in genes without a disease association revealed a significant burden of loss-of-function variants in the genes most intolerant to such variation, indicating additional epilepsy-risk genes yet to be discovered. Taken together, our study suggests that genic and sub-genic intolerance are critical characteristics for interpreting the effects of variation in genes that influence epilepsy.

Published

2021

4. Polygenic burden in focal and generalized epilepsies

Author

Leu C., Stevelink R., Smith A. W., Goleva S. B., Kanai M., Ferguson L., Campbell C., Kamatani Y., Okada Y., Sisodiya S. M., Cavalleri G. L., Koeleman B. P. C., Lerche H., Jehi L., Davis L. K., Najm I. M., Palotie A., Daly M. J., Busch R. M., Lal D., Feng Y. -C. A., Howrigan D. P., Abbott L. E., Tashman K., Cerrato F., Churchhouse C., Gupta N., Neale B. M., Berkovic S. F., Goldstein D. B., Lowenstein D. H., Cossette P., Cotsapas C., De Jonghe P., Dixon-Salazar T., Guerrini R., Hakonarson H., Heinzen E. L., Helbig I., Kwan P., Marson A. G., Petrovski S., Kamalakaran S., Stewart R., Weckhuysen S., Depondt C., Dlugos D. J., Scheffer I. E., Striano P., Freyer C., Krause R., May P., McKenna K., Regan B. M., Bellows S. T., Bennett C. A., Johns E. M. C., Macdonald A., Shilling H., Burgess R., Weckhuysen D., Bahlo M., O'Brien T. J., Todaro M., Stamberger H., Andrade D. M., Sadoway T. R., Mo K., Krestel H., Gallati S., Papacostas S. S., Kousiappa I., Tanteles G. A., Sterbova K., Vlckova M., Sedlackova L., Lassuthova P., Klein K. M., Rosenow F., Reif P. S., Knake S., Kunz W. S., Zsurka G., Elger C. E., Bauer J., Rademacher M., Pendziwiat M., Muhle H., Rademacher A., Van Baalen A., Von Spiczak S., Stephani U., Afawi Z., Korczyn A. D., Kanaan M., Canavati C., Kurlemann G., Muller-Schluter K., Kluger G., Hausler M., Blatt I., Lemke J. R., Krey I., Weber Y. G., Wolking S., Becker F., Hengsbach C., Rau S., Maisch A. F., Steinhoff B. J., Schulze-Bonhage A., Schubert-Bast S., Schreiber H., Borggrafe I., Schankin C. J., Mayer T., Korinthenberg R., Brockmann K., Dennig D., Madeleyn R., Kalviainen R., Auvinen P., Saarela A., Linnankivi T., Lehesjoki A. -E., Rees M. I., Chung S. -K., Pickrell W. O., Powell R., Schneider N., Balestrini S., Zagaglia S., Braatz V., Johnson M. R., Auce P., Sills G. J., Baum L. W., Sham P. C., Cherny S. S., Lui C. H. T., Barisic N., Delanty N., Doherty C. P., Shukralla A., McCormack M., El-Naggar H., Canafoglia L., Franceschetti S., Castellotti B., Granata T., Zara F., Iacomino M., Madia F., Vari M. S., Mancardi M. M., Salpietro V., Bisulli F., Tinuper P., Licchetta L., Pippucci T., Stipa C., Muccioli L., Minardi R., Gambardella A., Labate A., Annesi G., Manna L., Gagliardi M., Parrini E., Mei D., Vetro A., Bianchini C., Montomoli M., Doccini V., Marini C., Suzuki T., Inoue Y., Yamakawa K., Birute T., Ruta M., Algirdas U., Ruta P., Jurgita G., Ruta S., Sadleir L. G., King C., Mountier E., Caglayan S. H., Arslan M., Yapici Z., Yis U., Topaloglu P., Kara B., Turkdogan D., Gundogdu-Eken A., Bebek N., Ugur-Iseri S., Baykan B., Salman B., Haryanyan G., Yucesan E., Kesim Y., Ozkara C., Sheidley B. R., Shain C., Poduri A., Buono R. J., Ferraro T. N., Sperling M. R., Lo W., Privitera M., French J. A., Schachter S., Kuzniecky R. I., Devinsky O., Hegde M., Khankhanian P., Helbig K. L., Ellis C. A., Spalletta G., Piras F., Gili T., Ciullo V., Leu C., Stevelink R., Smith A.W., Goleva S.B., Kanai M., Ferguson L., Campbell C., Kamatani Y., Okada Y., Sisodiya S.M., Cavalleri G.L., Koeleman B.P.C., Lerche H., Jehi L., Davis L.K., Najm I.M., Palotie A., Daly M.J., Busch R.M., Lal D., Feng Y.-C.A., Howrigan D.P., Abbott L.E., Tashman K., Cerrato F., Churchhouse C., Gupta N., Neale B.M., Berkovic S.F., Goldstein D.B., Lowenstein D.H., Cossette P., Cotsapas C., De Jonghe P., Dixon-Salazar T., Guerrini R., Hakonarson H., Heinzen E.L., Helbig I., Kwan P., Marson A.G., Petrovski S., Kamalakaran S., Stewart R., Weckhuysen S., Depondt C., Dlugos D.J., Scheffer I.E., Striano P., Freyer C., Krause R., May P., McKenna K., Regan B.M., Bellows S.T., Bennett C.A., Johns E.M.C., Macdonald A., Shilling H., Burgess R., Weckhuysen D., Bahlo M., O'Brien T.J., Todaro M., Stamberger H., Andrade D.M., Sadoway T.R., Mo K., Krestel H., Gallati S., Papacostas S.S., Kousiappa I., Tanteles G.A., Sterbova K., Vlckova M., Sedlackova L., Lassuthova P., Klein K.M., Rosenow F., Reif P.S., Knake S., Kunz W.S., Zsurka G., Elger C.E., Bauer J., Rademacher M., Pendziwiat M., Muhle H., Rademacher A., Van Baalen A., Von Spiczak S., Stephani U., Afawi Z., Korczyn A.D., Kanaan M., Canavati C., Kurlemann G., Muller-Schluter K., Kluger G., Hausler M., Blatt I., Lemke J.R., Krey I., Weber Y.G., Wolking S., Becker F., Hengsbach C., Rau S., Maisch A.F., Steinhoff B.J., Schulze-Bonhage A., Schubert-Bast S., Schreiber H., Borggrafe I., Schankin C.J., Mayer T., Korinthenberg R., Brockmann K., Dennig D., Madeleyn R., Kalviainen R., Auvinen P., Saarela A., Linnankivi T., Lehesjoki A.-E., Rees M.I., Chung S.-K., Pickrell W.O., Powell R., Schneider N., Balestrini S., Zagaglia S., Braatz V., Johnson M.R., Auce P., Sills G.J., Baum L.W., Sham P.C., Cherny S.S., Lui C.H.T., Barisic N., Delanty N., Doherty C.P., Shukralla A., McCormack M., El-Naggar H., Canafoglia L., Franceschetti S., Castellotti B., Granata T., Zara F., Iacomino M., Madia F., Vari M.S., Mancardi M.M., Salpietro V., Bisulli F., Tinuper P., Licchetta L., Pippucci T., Stipa C., Muccioli L., Minardi R., Gambardella A., Labate A., Annesi G., Manna L., Gagliardi M., Parrini E., Mei D., Vetro A., Bianchini C., Montomoli M., Doccini V., Marini C., Suzuki T., Inoue Y., Yamakawa K., Birute T., Ruta M., Algirdas U., Ruta P., Jurgita G., Ruta S., Sadleir L.G., King C., Mountier E., Caglayan S.H., Arslan M., Yapici Z., Yis U., Topaloglu P., Kara B., Turkdogan D., Gundogdu-Eken A., Bebek N., Ugur-Iseri S., Baykan B., Salman B., Haryanyan G., Yucesan E., Kesim Y., Ozkara C., Sheidley B.R., Shain C., Poduri A., Buono R.J., Ferraro T.N., Sperling M.R., Lo W., Privitera M., French J.A., Schachter S., Kuzniecky R.I., Devinsky O., Hegde M., Khankhanian P., Helbig K.L., Ellis C.A., Spalletta G., Piras F., Gili T., Ciullo V., Commission of the European Communities, Medical Research Council (MRC), Tumienė, Birutė, Mameniškienė, Rūta, Utkus, Algirdas, Praninskienė, Rūta, Grikinienė, Jurgita, Samaitienė-Aleknienė, Rūta, Centre of Excellence in Complex Disease Genetics, Aarno Palotie / Principal Investigator, Institute for Molecular Medicine Finland, Genomics of Neurological and Neuropsychiatric Disorders, University of Helsinki, Helsinki Institute of Life Science HiLIFE, and Department of Medical and Clinical Genetics

Subjects

0301 basic medicine, Male, Multifactorial Inheritance, Epi25 Consortium, Databases, Factual, FEATURES, Genome-wide association study, Epilepsies, 3124 Neurology and psychiatry, Cohort Studies, Epilepsy, 0302 clinical medicine, Cost of Illness, 1ST SEIZURE, HISTORY, genetics, POPULATION, 11 Medical and Health Sciences, education.field_of_study, medicine.diagnostic_test, SCORES, Single Nucleotide, Biobank, 3. Good health, 17 Psychology and Cognitive Sciences, Genetic generalized epilepsy, Epilepsy, Generalized, Female, Partial, Cohort study, Human, medicine.medical_specialty, Population, European Continental Ancestry Group, Clinical Neurology, BIOBANK, Polymorphism, Single Nucleotide, epilepsy, genetic generalized epilepsy, common variant risk, Databases, 03 medical and health sciences, Genetic, Internal medicine, medicine, Journal Article, Genetics, Humans, Genetic Predisposition to Disease, Polymorphism, GENOME-WIDE ASSOCIATION, Generalized epilepsy, education, SEIZURE RECURRENCE, Factual, METAANALYSIS, Genetic testing, Neurology & Neurosurgery, RISK PREDICTION, Generalized, business.industry, 3112 Neurosciences, Common variant risk, Genetic Variation, Original Articles, medicine.disease, Comorbidity, Cost of Illne, Epilepsies, Partial, Genome-Wide Association Study, 030104 developmental biology, Neurology (clinical), Cohort Studie, business, 030217 neurology & neurosurgery

Abstract

See Hansen and Møller (doi:10.1093/brain/awz318) for a scientific commentary on this article. Using polygenic risk scores from a genome-wide association study in generalized and focal epilepsy, Leu et al. reveal a significantly higher genetic burden for epilepsy in multiple cohorts of people with epilepsy compared to population controls. Quantification of common variant burden may be valuable for epilepsy prognosis and treatment., Rare genetic variants can cause epilepsy, and genetic testing has been widely adopted for severe, paediatric-onset epilepsies. The phenotypic consequences of common genetic risk burden for epilepsies and their potential future clinical applications have not yet been determined. Using polygenic risk scores (PRS) from a European-ancestry genome-wide association study in generalized and focal epilepsy, we quantified common genetic burden in patients with generalized epilepsy (GE-PRS) or focal epilepsy (FE-PRS) from two independent non-Finnish European cohorts (Epi25 Consortium, n = 5705; Cleveland Clinic Epilepsy Center, n = 620; both compared to 20 435 controls). One Finnish-ancestry population isolate (Finnish-ancestry Epi25, n = 449; compared to 1559 controls), two European-ancestry biobanks (UK Biobank, n = 383 656; Vanderbilt biorepository, n = 49 494), and one Japanese-ancestry biobank (BioBank Japan, n = 168 680) were used for additional replications. Across 8386 patients with epilepsy and 622 212 population controls, we found and replicated significantly higher GE-PRS in patients with generalized epilepsy of European-ancestry compared to patients with focal epilepsy (Epi25: P = 1.64×10−15; Cleveland: P = 2.85×10−4; Finnish-ancestry Epi25: P = 1.80×10−4) or population controls (Epi25: P = 2.35×10−70; Cleveland: P = 1.43×10−7; Finnish-ancestry Epi25: P = 3.11×10−4; UK Biobank and Vanderbilt biorepository meta-analysis: P = 7.99×10−4). FE-PRS were significantly higher in patients with focal epilepsy compared to controls in the non-Finnish, non-biobank cohorts (Epi25: P = 5.74×10−19; Cleveland: P = 1.69×10−6). European ancestry-derived PRS did not predict generalized epilepsy or focal epilepsy in Japanese-ancestry individuals. Finally, we observed a significant 4.6-fold and a 4.5-fold enrichment of patients with generalized epilepsy compared to controls in the top 0.5% highest GE-PRS of the two non-Finnish European cohorts (Epi25: P = 2.60×10−15; Cleveland: P = 1.39×10−2). We conclude that common variant risk associated with epilepsy is significantly enriched in multiple cohorts of patients with epilepsy compared to controls—in particular for generalized epilepsy. As sample sizes and PRS accuracy continue to increase with further common variant discovery, PRS could complement established clinical biomarkers and augment genetic testing for patient classification, comorbidity research, and potentially targeted treatment.

Published

2019

5. Blood-brain barrier disruption in post-traumatic epilepsy

Author

Tomkins, O., Shelef, I., Kaizerman, I., Eliushin, A., Afawi, Z., Misk, A., Gidon, M., Cohen, A., Zumsteg, D., and Friedman, A.

Subjects

Blood-brain barrier -- Physiological aspects, Epilepsy -- Development and progression, Epilepsy -- Research, Brain -- Injuries, Brain -- Complications and side effects, Brain -- Research, Health, Psychology and mental health

Published

2008

6. Whole-exome and HLA sequencing in Febrile infection-related epilepsy syndrome

Author

Helbig, I. (Ingo), Barcia, G. (Giulia), Pendziwiat, M. (Manuela), Ganesan, S. (Shiva), Mueller, S.H. (Stefanie H.), Helbig, K.L. (Katherine L.), Vaidiswaran, P. (Priya), Xian, J. (Julie), Galer, P.D. (Peter D.), Afawi, Z. (Zaid), Specchio, N. (Nicola), Kluger, G. (Gerhard), Kuhlenbäumer, G. (Gregor), Appenzeller, S. (Silke), Wittig, M. (Michael), Kramer, U. (Uri), van Baalen, A. (Andreas), Nabbout, R. (Rima), Helbig, I. (Ingo), Barcia, G. (Giulia), Pendziwiat, M. (Manuela), Ganesan, S. (Shiva), Mueller, S.H. (Stefanie H.), Helbig, K.L. (Katherine L.), Vaidiswaran, P. (Priya), Xian, J. (Julie), Galer, P.D. (Peter D.), Afawi, Z. (Zaid), Specchio, N. (Nicola), Kluger, G. (Gerhard), Kuhlenbäumer, G. (Gregor), Appenzeller, S. (Silke), Wittig, M. (Michael), Kramer, U. (Uri), van Baalen, A. (Andreas), and Nabbout, R. (Rima)

Abstract

Febrile infection-related epilepsy syndrome (FIRES) is a devastating epilepsy characterized by new-onset refractory status epilepticus with a prior febrile infection. We performed exome sequencing in 50 individuals with FIRES, including 27 patient–parent trios and 23 single probands, none of whom had pathogenic variants in established genes for epilepsies or neurodevelopmental disorders. We also performed HLA sequencing in 29 individuals with FIRES and 529 controls, which failed to identify prominent HLA alleles. The genetic architecture of FIRES is substantially different from other developmental and epileptic encephalopathies, and the underlying etiology remains elusive, requiring novel approaches to identify the underlying causative factors.

Published

2020

7. Epilepsy subtype-specific copy number burden observed in a genome-wide study of 17458 subjects

Author

Niestroj, LM, Perez-Palma, E, Howrigan, DP, Zhou, Y, Cheng, F, Saarentaus, E, Nürnberg, P, Stevelink, R, Daly, MJ, Palotie, A, Lal, D, Feng, YCA, Abbott, LE, Tashman, K, Cerrato, F, Churchhouse, C, Gupta, N, Neale, BM, Berkovic, SF, Lerche, H, Goldstein, DB, Lowenstein, DH, Cavalleri, GL, Cossette, P, Cotsapas, C, De Jonghe, P, Dixon-Salazar, T, Guerrini, R, Hakonarson, H, Heinzen, EL, Helbig, I, Kwan, P, Marson, AG, Petrovski, S, Kamalakaran, S, Sisodiya, SM, Stewart, R, Weckhuysen, S, Depondt, C, Dlugos, DJ, Scheffer, IE, Striano, P, Freyer, C, Krause, R, May, P, McKenna, K, Regan, BM, Leu, C, Bennett, CA, Bellows, Susannah, Johns, EMC, MacDonald, A, Shilling, H, Burgess, R, Weckhuysen, D, Bahlo, M, O'Brien, TJ, Todaro, M, Stamberger, H, Andrade, DM, Sadoway, TR, Mo, K, Krestel, H, Gallati, S, Papacostas, SS, Kousiappa, I, Tanteles, GA, Šterbová, K, Vlcková, M, Sedlácková, L, Laššuthová, P, Martin, K, Rosenow, F, Reif, PS, Knake, S, Kunz, WS, Zsurka, G, Elger, CE, Bauer, J, Rademacher, M, Pendziwiat, M, Muhle, H, Rademacher, A, Van Baalen, A, Von Spiczak, S, Stephani, U, Afawi, Z, Korczyn, AD, Kanaan, M, Canavati, C, Kurlemann, G, Müller-Schlüter, K, Kluger, G, Häusler, M, Blatt, I, Lemke, JR, Krey, I, Weber, YG, Wolking, S, Becker, F, Niestroj, LM, Perez-Palma, E, Howrigan, DP, Zhou, Y, Cheng, F, Saarentaus, E, Nürnberg, P, Stevelink, R, Daly, MJ, Palotie, A, Lal, D, Feng, YCA, Abbott, LE, Tashman, K, Cerrato, F, Churchhouse, C, Gupta, N, Neale, BM, Berkovic, SF, Lerche, H, Goldstein, DB, Lowenstein, DH, Cavalleri, GL, Cossette, P, Cotsapas, C, De Jonghe, P, Dixon-Salazar, T, Guerrini, R, Hakonarson, H, Heinzen, EL, Helbig, I, Kwan, P, Marson, AG, Petrovski, S, Kamalakaran, S, Sisodiya, SM, Stewart, R, Weckhuysen, S, Depondt, C, Dlugos, DJ, Scheffer, IE, Striano, P, Freyer, C, Krause, R, May, P, McKenna, K, Regan, BM, Leu, C, Bennett, CA, Bellows, Susannah, Johns, EMC, MacDonald, A, Shilling, H, Burgess, R, Weckhuysen, D, Bahlo, M, O'Brien, TJ, Todaro, M, Stamberger, H, Andrade, DM, Sadoway, TR, Mo, K, Krestel, H, Gallati, S, Papacostas, SS, Kousiappa, I, Tanteles, GA, Šterbová, K, Vlcková, M, Sedlácková, L, Laššuthová, P, Martin, K, Rosenow, F, Reif, PS, Knake, S, Kunz, WS, Zsurka, G, Elger, CE, Bauer, J, Rademacher, M, Pendziwiat, M, Muhle, H, Rademacher, A, Van Baalen, A, Von Spiczak, S, Stephani, U, Afawi, Z, Korczyn, AD, Kanaan, M, Canavati, C, Kurlemann, G, Müller-Schlüter, K, Kluger, G, Häusler, M, Blatt, I, Lemke, JR, Krey, I, Weber, YG, Wolking, S, and Becker, F

Abstract

Cytogenic testing is routinely applied in most neurological centres for severe paediatric epilepsies. However, which characteristics of copy number variants (CNVs) confer most epilepsy risk and which epilepsy subtypes carry the most CNV burden, have not been explored on a genome-wide scale. Here, we present the largest CNV investigation in epilepsy to date with 10 712 European epilepsy cases and 6746 ancestry-matched controls. Patients with genetic generalized epilepsy, lesional focal epilepsy, non-acquired focal epilepsy, and developmental and epileptic encephalopathy were included. All samples were processed with the same technology and analysis pipeline. All investigated epilepsy types, including lesional focal epilepsy patients, showed an increase in CNV burden in at least one tested category compared to controls. However, we observed striking differences in CNV burden across epilepsy types and investigated CNV categories. Genetic generalized epilepsy patients have the highest CNV burden in all categories tested, followed by developmental and epileptic encephalopathy patients. Both epilepsy types also show association for deletions covering genes intolerant for truncating variants. Genome-wide CNV breakpoint association showed not only significant loci for genetic generalized and developmental and epileptic encephalopathy patients but also for lesional focal epilepsy patients. With a 34-fold risk for developing genetic generalized epilepsy, we show for the first time that the established epilepsy-associated 15q13.3 deletion represents the strongest risk CNV for genetic generalized epilepsy across the whole genome. Using the human interactome, we examined the largest connected component of the genes overlapped by CNVs in the four epilepsy types. We observed that genetic generalized epilepsy and non-acquired focal epilepsy formed disease modules. In summary, we show that in all common epilepsy types, 1.5-3% of patients carry epilepsy-associated CNVs. The character

Published

2020

8. De novo variants in neurodevelopmental disorders with epilepsy

Author

Heyne, H. O., Singh, T., Stamberger, H., Abou Jamra, R., Caglayan, H., Craiu, D., De Jonghe, P., Guerrini, R., Helbig, K. L., Koeleman, B. P. C., Kosmicki, J. A., Linnankivi, T., May, P., Muhle, H., Moller, R. S., Neubauer, B. A., Palotie, A., Pendziwiat, M., Striano, P., Tang, S., Wu, S., Afawi, Z., De Kovel, C., Dimova, P., Djemie, T., Endziniene, M., Hoffman-Zacharska, D., Jahn, J., Korff, C., Lehesjoki, A. -E., Marini, C., Muller, S. H., Pal, D., Schwarz, N., Selmer, K., Serratosa, J., Stephani, U., Sterbova, K., Suls, A., Syrbe, S., Talvik, I., Von Spiczak, S., Zara, F., Poduri, A., Weber, Y. G., Weckhuysen, S., Sisodiya, S. M., Daly, M. J., Helbig, I., Lal, D., Lemke, J. R., Children's Hospital, Lastenneurologian yksikkö, Clinicum, University of Helsinki, Centre of Excellence in Complex Disease Genetics, Aarno Palotie / Principal Investigator, Institute for Molecular Medicine Finland, Research Programme for Molecular Neurology, Neuroscience Center, HUS Children and Adolescents, Genomics of Neurological and Neuropsychiatric Disorders, Luxembourg Centre for Systems Biomedicine (LCSB): Bioinformatics Core (R. Schneider Group) [research center], University of Luxembourg: High Performance Computing - ULHPC [research center], Korff, Christian, and EuroEPINOMICS RES Consortium

Subjects

Exome/genetics, Male, 0301 basic medicine, ILAE COMMISSION, Joint analysis, Neurodevelopmental Disorders/genetics, Bioinformatics, Epilepsy/genetics, Epilepsy, 0302 clinical medicine, Intellectual disability, SEQUENCE VARIANTS, Missense mutation, Epilepsy is a frequent feature, Exome, TERMINOLOGY, Disease gene, 0303 health sciences, ddc:618, medicine.diagnostic_test, Genetic Predisposition to Disease/genetics, Neurodevelopmental disorders, 1184 Genetics, developmental biology, physiology, HUMAN-DISEASE, PREVALENCE, 3. Good health, Genetic Variation/genetics, De novo variants, Female, Genetics & genetic processes [F10] [Life sciences], Génétique & processus génétiques [F10] [Sciences du vivant], Genetic Testing/methods, Disease Association, Biology, CLASSIFICATION, 03 medical and health sciences, Intellectual Disability, Genetics, medicine, Humans, Genetic Predisposition to Disease, Genetic Testing, Limited evidence, 030304 developmental biology, Genetic testing, business.industry, MUTATIONS, AUTISM SPECTRUM DISORDER, Genetic Variation, medicine.disease, Intellectual Disability/genetics, 030104 developmental biology, Neurodevelopmental Disorders, epilepsy, KCNQ2 ENCEPHALOPATHY, Human medicine, 3111 Biomedicine, business, Genetic diagnosis, 030217 neurology & neurosurgery

Abstract

Epilepsy is a frequent feature of neurodevelopmental disorders (NDD) but little is known about genetic differences between NDD with and without epilepsy. We analyzed de novo variants (DNV) in 6753 parent-offspring trios ascertained for different NDD. In the subset of 1942 individuals with NDD with epilepsy, we identified 33 genes with a significant excess of DNV, of which SNAP25 and GABRB2 had previously only limited evidence for disease association. Joint analysis of all individuals with NDD also implicated CACNA1E as a novel disease gene. Comparing NDD with and without epilepsy, we found missense DNV, DNV in specific genes, age of recruitment and severity of intellectual disability to be associated with epilepsy. We further demonstrate to what extent our results impact current genetic testing as well as treatment, emphasizing the benefit of accurate genetic diagnosis in NDD with epilepsy.

Published

2018

9. AN UNUSUALLY SEVERE PHENOTYPE IN A FAMILY WITH A NOVEL SCN1A MUTATION: FROM GEFS+ TO DRAVET SYNDROME: p846

Author

Goldberg-Stern, H., Afawi, Z., Aharoni, S., Bennett, O., Appenzeller, S., Baumgart, A., Basel-Vanagaite, L., Kuhlenbaumer, G., Korczyn, A. D., and Helbig, I.

Published

2012

10. AUTOSOMAL RECESSIVE PARTIAL EPILEPSY WITH INTELLECTUAL DISABILITY (ARPEID) - A NOVEL EPILEPSY SYNDROME?: p803

Author

Afawi, Z., Abu-Rachma, J., Kivity, S., Blatt, I., and Helbig, I.

Published

2012

11. Deletions or duplications in KCNQ2 can cause benign familial neonatal seizures

Author

Heron, Sarah E, Cox, K, Grinton, B E, Zuberi, S M, Kivity, Sara, Afawi, Z, Straussberg, R, Berkovic, S F, Scheffer, I E, and Mulley, J C

Published

2007

12. Intronic ATTTC repeat expansions in STARD7 in familial adult myoclonic epilepsy linked to chromosome 2

Author

Corbett, MA, Kroes, T, Veneziano, L, Bennett, MF, Florian, R, Schneider, AL, Coppola, A, Licchetta, L, Franceschetti, S, Suppa, A, Wenger, A, Mei, D, Pendziwiat, M, Kaya, S, Delledonne, M, Straussberg, R, Xumerle, L, Regan, B, Crompton, D, van Rootselaar, A-F, Correll, A, Catford, R, Bisulli, F, Chakraborty, S, Baldassari, S, Tinuper, P, Barton, K, Carswell, S, Smith, M, Berardelli, A, Carroll, R, Gardner, A, Friend, KL, Blatt, I, Iacomino, M, Di Bonaventura, C, Striano, S, Buratti, J, Keren, B, Nava, C, Forlani, S, Rudolf, G, Hirsch, E, Leguern, E, Labauge, P, Balestrini, S, Sander, JW, Afawi, Z, Helbig, I, Ishiura, H, Tsuji, S, Sisodiya, SM, Casari, G, Sadleir, LG, van Coller, R, Tijssen, MAJ, Klein, KM, van den Maagdenberg, AMJM, Zara, F, Guerrini, R, Berkovic, SF, Pippucci, T, Canafoglia, L, Bahlo, M, Striano, P, Scheffer, IE, Brancati, F, Depienne, C, Gecz, J, Corbett, MA, Kroes, T, Veneziano, L, Bennett, MF, Florian, R, Schneider, AL, Coppola, A, Licchetta, L, Franceschetti, S, Suppa, A, Wenger, A, Mei, D, Pendziwiat, M, Kaya, S, Delledonne, M, Straussberg, R, Xumerle, L, Regan, B, Crompton, D, van Rootselaar, A-F, Correll, A, Catford, R, Bisulli, F, Chakraborty, S, Baldassari, S, Tinuper, P, Barton, K, Carswell, S, Smith, M, Berardelli, A, Carroll, R, Gardner, A, Friend, KL, Blatt, I, Iacomino, M, Di Bonaventura, C, Striano, S, Buratti, J, Keren, B, Nava, C, Forlani, S, Rudolf, G, Hirsch, E, Leguern, E, Labauge, P, Balestrini, S, Sander, JW, Afawi, Z, Helbig, I, Ishiura, H, Tsuji, S, Sisodiya, SM, Casari, G, Sadleir, LG, van Coller, R, Tijssen, MAJ, Klein, KM, van den Maagdenberg, AMJM, Zara, F, Guerrini, R, Berkovic, SF, Pippucci, T, Canafoglia, L, Bahlo, M, Striano, P, Scheffer, IE, Brancati, F, Depienne, C, and Gecz, J

Abstract

Familial Adult Myoclonic Epilepsy (FAME) is characterised by cortical myoclonic tremor usually from the second decade of life and overt myoclonic or generalised tonic-clonic seizures. Four independent loci have been implicated in FAME on chromosomes (chr) 2, 3, 5 and 8. Using whole genome sequencing and repeat primed PCR, we provide evidence that chr2-linked FAME (FAME2) is caused by an expansion of an ATTTC pentamer within the first intron of STARD7. The ATTTC expansions segregate in 158/158 individuals typically affected by FAME from 22 pedigrees including 16 previously reported families recruited worldwide. RNA sequencing from patient derived fibroblasts shows no accumulation of the AUUUU or AUUUC repeat sequences and STARD7 gene expression is not affected. These data, in combination with other genes bearing similar mutations that have been implicated in FAME, suggest ATTTC expansions may cause this disorder, irrespective of the genomic locus involved.

Published

2019

13. Quantitative analysis of phenotypic elements augments traditional electroclinical classification of common familial epilepsies

Author

Abou-Khalil, B, Afawi, Z, Allen, AS, Bautista, JF, Bellows, ST, Berkovic, SF, Bluvstein, J, Burgess, R, Cascino, G, Cossette, P, Cristofaro, S, Crompton, DE, Delanty, N, Devinsky, O, Dlugos, D, Ellis, CA, Epstein, MP, Fountain, NB, Freyer, C, Geller, EB, Glauser, T, Glynn, S, Goldberg-Stern, H, Goldstein, DB, Gravel, M, Haas, K, Haut, S, Heinzen, EL, Kirsch, HE, Kivity, S, Knowlton, R, Korczyn, AD, Kossoff, E, Kuzniecky, R, Loeb, R, Lowenstein, DH, Marson, AG, McCormack, M, McKenna, K, Mefford, HC, Motika, P, Mullen, SA, O'Brien, TJ, Ottman, R, Paolicchi, J, Parent, JM, Paterson, S, Petrou, S, Petrovski, S, Pickrell, WO, Poduri, A, Rees, MI, Sadleir, LG, Scheffer, IE, Shih, J, Singh, R, Sirven, J, Smith, M, Smith, PEM, Thio, LL, Thomas, RH, Venkat, A, Vining, E, Von Allmen, G, Weisenberg, J, Widdess-Walsh, P, Winawer, MR, Abou-Khalil, B, Afawi, Z, Allen, AS, Bautista, JF, Bellows, ST, Berkovic, SF, Bluvstein, J, Burgess, R, Cascino, G, Cossette, P, Cristofaro, S, Crompton, DE, Delanty, N, Devinsky, O, Dlugos, D, Ellis, CA, Epstein, MP, Fountain, NB, Freyer, C, Geller, EB, Glauser, T, Glynn, S, Goldberg-Stern, H, Goldstein, DB, Gravel, M, Haas, K, Haut, S, Heinzen, EL, Kirsch, HE, Kivity, S, Knowlton, R, Korczyn, AD, Kossoff, E, Kuzniecky, R, Loeb, R, Lowenstein, DH, Marson, AG, McCormack, M, McKenna, K, Mefford, HC, Motika, P, Mullen, SA, O'Brien, TJ, Ottman, R, Paolicchi, J, Parent, JM, Paterson, S, Petrou, S, Petrovski, S, Pickrell, WO, Poduri, A, Rees, MI, Sadleir, LG, Scheffer, IE, Shih, J, Singh, R, Sirven, J, Smith, M, Smith, PEM, Thio, LL, Thomas, RH, Venkat, A, Vining, E, Von Allmen, G, Weisenberg, J, Widdess-Walsh, P, and Winawer, MR

Abstract

OBJECTIVE: Classification of epilepsy into types and subtypes is important for both clinical care and research into underlying disease mechanisms. A quantitative, data-driven approach may augment traditional electroclinical classification and shed new light on existing classification frameworks. METHODS: We used latent class analysis, a statistical method that assigns subjects into groups called latent classes based on phenotypic elements, to classify individuals with common familial epilepsies from the Epi4K Multiplex Families study. Phenotypic elements included seizure types, seizure symptoms, and other elements of the medical history. We compared class assignments to traditional electroclinical classifications and assessed familial aggregation of latent classes. RESULTS: A total of 1120 subjects with epilepsy were assigned to five latent classes. Classes 1 and 2 contained subjects with generalized epilepsy, largely reflecting the distinction between absence epilepsies and younger onset (class 1) versus myoclonic epilepsies and older onset (class 2). Classes 3 and 4 contained subjects with focal epilepsies, and in contrast to classes 1 and 2, these did not adhere as closely to clinically defined focal epilepsy subtypes. Class 5 contained nearly all subjects with febrile seizures plus or unknown epilepsy type, as well as a few subjects with generalized epilepsy and a few with focal epilepsy. Family concordance of latent classes was similar to or greater than concordance of clinically defined epilepsy types. SIGNIFICANCE: Quantitative classification of epilepsy has the potential to augment traditional electroclinical classification by (1) combining some syndromes into a single class, (2) splitting some syndromes into different classes, (3) helping to classify subjects who could not be classified clinically, and (4) defining the boundaries of clinically defined classifications. This approach can guide future research, including molecular genetic studies, by identifyi

Published

2019

14. Glucose Transporter 1 deficiency and associated conditions in children

Author

Gamirova, R. G., primary, Afawi, Z., additional, Gamirova, R. R., additional, Gorobets, E. A., additional, Prusakov, V. F., additional, and Volgina, S. Ya., additional

Published

2019

15. ACO2 homozygous missense mutation associated with complicated hereditary spastic paraplegia

Author

Bouwkamp, C.G. (Christian), Afawi, Z. (Zaid), Fattal-Valevski, A. (Aviva), Krabbendam, I.E. (Inge E.), Rivetti, S. (Stefano), Masalha, R. (Rafik), Quadri, M. (Marialuisa), Breedveld, G.J. (Guido), Mandel, H., Tailakh, M.A. (Muhammad Abu), Beverloo, H.B. (Berna), Stevanin, G. (Giovanni), Brice, A., IJcken, W.F.J. (Wilfred) van, Vernooij, M.W. (Meike), Dolga, A.M. (Amalia), Vrij, F.M.S. (Femke), Bonifati, V. (Vincenzo), Kushner, S.A. (Steven), Bouwkamp, C.G. (Christian), Afawi, Z. (Zaid), Fattal-Valevski, A. (Aviva), Krabbendam, I.E. (Inge E.), Rivetti, S. (Stefano), Masalha, R. (Rafik), Quadri, M. (Marialuisa), Breedveld, G.J. (Guido), Mandel, H., Tailakh, M.A. (Muhammad Abu), Beverloo, H.B. (Berna), Stevanin, G. (Giovanni), Brice, A., IJcken, W.F.J. (Wilfred) van, Vernooij, M.W. (Meike), Dolga, A.M. (Amalia), Vrij, F.M.S. (Femke), Bonifati, V. (Vincenzo), and Kushner, S.A. (Steven)

Abstract

Objective: To identify the clinical characteristics and genetic etiology of a family affected with hereditary

Published

2018

16. Modern achievements in genetic studies of idiopathic generalized epilepsies

Author

Afawi, Z., primary, Gamirova, R. G., additional, Jaxybayeva, A. Kh., additional, and Esin, R. G., additional

Published

2018

17. De novo SCN1A pathogenic variants in the GEFS plus spectrum: Not always a familial syndrome

Author

Myers, KA, Burgess, R, Afawi, Z, Damiano, JA, Berkovic, SF, Hildebrand, MS, Scheffer, IE, Myers, KA, Burgess, R, Afawi, Z, Damiano, JA, Berkovic, SF, Hildebrand, MS, and Scheffer, IE

Abstract

Genetic epilepsy with febrile seizures plus (GEFS+) is a familial epilepsy syndrome characterized by heterogeneous phenotypes ranging from mild disorders such as febrile seizures to epileptic encephalopathies (EEs) such as Dravet syndrome (DS). Although DS often occurs with de novo SCN1A pathogenic variants, milder GEFS+ spectrum phenotypes are associated with inherited pathogenic variants. We identified seven cases with non-EE GEFS+ phenotypes and de novo SCN1A pathogenic variants, including a monozygotic twin pair. Febrile seizures plus (FS+) occurred in six patients, five of whom had additional seizure types. The remaining case had childhood-onset temporal lobe epilepsy without known febrile seizures. Although early development was normal in all individuals, three later had learning difficulties, and the twin girls had language impairment and working memory deficits. All cases had SCN1A missense pathogenic variants that were not found in either parent. One pathogenic variant had been reported previously in a case of DS, and the remainder were novel. Our finding of de novo pathogenic variants in mild phenotypes within the GEFS+ spectrum shows that mild GEFS+ is not always inherited. SCN1A screening should be considered in patients with GEFS+ phenotypes because identification of pathogenic variants will influence antiepileptic therapy, and prognostic and genetic counseling.

Published

2017

18. Myoclonus Epilepsy and Ataxia due to KCNC1 Mutation: Analysis of 20 Cases and K plus Channel Properties

Author

Oliver, KL, Franceschetti, S, Milligan, CJ, Muona, M, Mandelstam, SA, Canafoglia, L, Boguszewska-Chachulska, AM, Korczyn, AD, Bisulli, F, Di Bonaventura, C, Ragona, F, Michelucci, R, Ben-Zeev, B, Straussberg, R, Panzica, F, Massano, J, Friedman, D, Crespel, A, Engelsen, BA, Andermann, F, Andermann, E, Spodar, K, Lasek-Bal, A, Riguzzi, P, Pasini, E, Tinuper, P, Licchetta, L, Gardella, E, Lindenau, M, Wulf, A, Moller, RS, Benninger, F, Afawi, Z, Rubboli, G, Reid, CA, Maljevic, S, Lerche, H, Lehesjoki, A-E, Petrou, S, Berkovic, SF, Oliver, KL, Franceschetti, S, Milligan, CJ, Muona, M, Mandelstam, SA, Canafoglia, L, Boguszewska-Chachulska, AM, Korczyn, AD, Bisulli, F, Di Bonaventura, C, Ragona, F, Michelucci, R, Ben-Zeev, B, Straussberg, R, Panzica, F, Massano, J, Friedman, D, Crespel, A, Engelsen, BA, Andermann, F, Andermann, E, Spodar, K, Lasek-Bal, A, Riguzzi, P, Pasini, E, Tinuper, P, Licchetta, L, Gardella, E, Lindenau, M, Wulf, A, Moller, RS, Benninger, F, Afawi, Z, Rubboli, G, Reid, CA, Maljevic, S, Lerche, H, Lehesjoki, A-E, Petrou, S, and Berkovic, SF

Abstract

OBJECTIVE: To comprehensively describe the new syndrome of myoclonus epilepsy and ataxia due to potassium channel mutation (MEAK), including cellular electrophysiological characterization of observed clinical improvement with fever. METHODS: We analyzed clinical, electroclinical, and neuroimaging data for 20 patients with MEAK due to recurrent KCNC1 p.R320H mutation. In vitro electrophysiological studies were conducted using whole cell patch-clamp to explore biophysical properties of wild-type and mutant KV 3.1 channels. RESULTS: Symptoms began at between 3 and 15 years of age (median = 9.5), with progressively severe myoclonus and rare tonic-clonic seizures. Ataxia was present early, but quickly became overshadowed by myoclonus; 10 patients were wheelchair-bound by their late teenage years. Mild cognitive decline occurred in half. Early death was not observed. Electroencephalogram (EEG) showed generalized spike and polyspike wave discharges, with documented photosensitivity in most. Polygraphic EEG-electromyographic studies demonstrated a cortical origin for myoclonus and striking coactivation of agonist and antagonist muscles. Magnetic resonance imaging revealed symmetrical cerebellar atrophy, which appeared progressive, and a prominent corpus callosum. Unexpectedly, transient clinical improvement with fever was noted in 6 patients. To explore this, we performed high-temperature in vitro recordings. At elevated temperatures, there was a robust leftward shift in activation of wild-type KV 3.1, increasing channel availability. INTERPRETATION: MEAK has a relatively homogeneous presentation, resembling Unverricht-Lundborg disease, despite the genetic and biological basis being quite different. A remarkable improvement with fever may be explained by the temperature-dependent leftward shift in activation of wild-type KV 3.1 subunit-containing channels, which would counter the loss of function observed for mutant channels, highlighting KCNC1 as a potential target for pre

Published

2017

19. Frequency of CNKSR2 mutation in the X-linked epilepsy-aphasia spectrum

Author

Damiano, JA, Burgess, R, Kivity, S, Lerman-Sagie, T, Afawi, Z, Scheffer, IE, Berkovic, SF, Hildebrand, MS, Damiano, JA, Burgess, R, Kivity, S, Lerman-Sagie, T, Afawi, Z, Scheffer, IE, Berkovic, SF, and Hildebrand, MS

Abstract

Synaptic proteins are critical to neuronal function in the brain, and their deficiency can lead to seizures and cognitive impairments. CNKSR2 (connector enhancer of KSR2) is a synaptic protein involved in Ras signaling-mediated neuronal proliferation, migration and differentiation. Mutations in the X-linked gene CNKSR2 have been described in patients with seizures and neurodevelopmental deficits, especially those affecting language. In this study, we sequenced 112 patients with phenotypes within the epilepsy-aphasia spectrum (EAS) to determine the frequency of CNKSR2 mutation within this complex set of disorders. We detected a novel nonsense mutation (c.2314 C>T; p.Arg712*) in one Ashkenazi Jewish family, the male proband of which had a severe epileptic encephalopathy with continuous spike-waves in sleep (ECSWS). His affected brother also had ECSWS with better outcome, whereas the sister had childhood epilepsy with centrotemporal spikes. This mutation segregated in the three affected siblings in an X-linked manner, inherited from their mother who had febrile seizures. Although the frequency of point mutation is low, CNKSR2 sequencing should be considered in families with suspected X-linked EAS because of the specific genetic counseling implications.

Published

2017

20. Loss of SYNJ1 dual phosphatase activity leads to early onset refractory seizures and progressive neurological decline

Author

Hardies, K, Cai, Y, Jardel, C, Jansen, Ac, Cao, M, May, P, Djémié, T, Hachon Le Camus, C, Keymolen, K, Deconinck, T, Bhambhani, V, Long, C, Sajan, Sa, Helbig, Kl, Suls, A, Balling, R, Helbig, I, De Jonghe, P, Depienne, C, De Camilli, P, Weckhuysen, S, Afawi, Z, Baulac, S, Barisic, N, Caglayan, H, Craiu, D, De Kovel CG, Lopez, Rg, Guerrini, R, Hjalgrim, H, Lerche, H, Jahn, J, Klein, Km, Koeleman, Bc, Leguern, E, Lemke, J, Marini, C, Muhle, H, Rosenow, F, Serratosa, Jm, Štěrbová, Ks, Møller, Rs, Palotie, A, Striano, P, Weber, Y, Zara, F., Mental Health and Wellbeing research group, Public Health Sciences, Neurogenetics, Clinical sciences, AR Working Grp, and EuroEPINOMICS RES Consortium

Subjects

Male, 0301 basic medicine, Drug Resistant Epilepsy, medicine.medical_specialty, Phosphatase, Nerve Tissue Proteins, Biology, Compound heterozygosity, SYNJ1, Cohort Studies, Consanguinity, 03 medical and health sciences, Epilepsy, Arts and Humanities (miscellaneous), SYNJ1 dual phosphatase activity, Polyphosphoinositide Phosphatase, Internal medicine, early onset epilepsy, medicine, Journal Article, Humans, Missense mutation, Exome, Age of Onset, Child, neurodegenerative disorder, recessive disorder, Medicine (all), Neurology (clinical), Exome sequencing, Synaptic vesicle endocytosis, Genetics, Neurodegenerative Diseases, Heterozygote advantage, Original Articles, Neurodegenerative disorder, medicine.disease, Phosphoric Monoester Hydrolases, Pedigree, Phenotype, 030104 developmental biology, Endocrinology, Child, Preschool, Female, Human medicine

Abstract

SYNJ1 encodes a polyphosphoinositide phosphatase (Synaptojanin 1) with a prominent role in synaptic vesicle dynamics. Hardies et al. report three families (six patients) with autosomal recessive SYNJ1 variants, who display early-onset refractory seizures and progressive neurological decline. The pathogenic variants entail loss of the dual phosphatase activity of Synaptojanin 1.SYNJ1 encodes a polyphosphoinositide phosphatase (Synaptojanin 1) with a prominent role in synaptic vesicle dynamics. Hardies et al. report three families (six patients) with autosomal recessive SYNJ1 variants, who display early-onset refractory seizures and progressive neurological decline. The pathogenic variants entail loss of the dual phosphatase activity of Synaptojanin 1.SYNJ1 encodes a polyphosphoinositide phosphatase, synaptojanin 1, which contains two consecutive phosphatase domains and plays a prominent role in synaptic vesicle dynamics. Autosomal recessive inherited variants in SYNJ1 have previously been associated with two different neurological diseases: a recurrent homozygous missense variant (p.Arg258Gln) that abolishes Sac1 phosphatase activity was identified in three independent families with early onset parkinsonism, whereas a homozygous nonsense variant (p.Arg136*) causing a severe decrease of mRNA transcript was found in a single patient with intractable epilepsy and tau pathology. We performed whole exome or genome sequencing in three independent sib pairs with early onset refractory seizures and progressive neurological decline, and identified novel segregating recessive SYNJ1 defects. A homozygous missense variant resulting in an amino acid substitution (p.Tyr888Cys) was found to impair, but not abolish, the dual phosphatase activity of SYNJ1, whereas three premature stop variants (homozygote p.Trp843* and compound heterozygote p.Gln647Argfs*6/p.Ser1122Thrfs*3) almost completely abolished mRNA transcript production. A genetic follow-up screening in a large cohort of 543 patients with a wide phenotypical range of epilepsies and intellectual disability revealed no additional pathogenic variants, showing that SYNJ1 deficiency is rare and probably linked to a specific phenotype. While variants leading to early onset parkinsonism selectively abolish Sac1 function, our results provide evidence that a critical reduction of the dual phosphatase activity of SYNJ1 underlies a severe disorder with neonatal refractory epilepsy and a neurodegenerative disease course. These findings further expand the clinical spectrum of synaptic dysregulation in patients with severe epilepsy, and emphasize the importance of this biological pathway in seizure pathophysiology.

Published

2016

21. Recessive mutations in SLC13A5 result in a loss of citrate transport and cause neonatal epilepsy, developmental delay and teeth hypoplasia

Author

Hardies, K., De Kovel, C. G. F., Weckhuysen, S., Asselbergh, B., Geuens, T., Deconinck, T., Azmi, A., May, P., Brilstra, E., Becker, F., Barisic, N., Craiu, D., Braun, K. P. J., Lal, D., Thiele, H., Schubert, J., Weber, Y., Van 'T Slot, R., Nurnberg, P., Balling, R., Timmerman, V., Lerche, H., Maudsley, S., Helbig, I., Suls, A., Koeleman, B. P. C., De Jonghe, P., Afawi, Z., Baulac, S., Caglayan, H., Lopez, R. G., Guerrini, R., Hjalgrim, H., Jahn, J., Klein, K. M., Leguern, E., Lemke, J., Marini, C., Muhle, H., Rosenow, F., Serratosa, J., Sterbova, K., Moller, R. S., Striano, P., Zara, F., and EuroEPINOMICS RES Consortium

Subjects

Male, medicine.medical_specialty, Adolescent, anaplerosis, epileptic encephalopathy, NaCT, recessive disorder, SLC13A5, teeth hypoplasia, medicine.medical_treatment, Developmental Disabilities, Mutant, Genes, Recessive, Biology, medicine.disease_cause, Citric Acid, Epilepsy, Internal medicine, medicine, Journal Article, Humans, Genetic Predisposition to Disease, Child, Gene, Anodontia, Genetics, Mutation, Brain Diseases, Symporters, Citrate transport, medicine.disease, Hypoplasia, Pedigree, Endocrinology, HEK293 Cells, Epilepsy syndromes, Female, Neurology (clinical), Human medicine, Ketogenic diet

Abstract

The epileptic encephalopathies are a clinically and aetiologically heterogeneous subgroup of epilepsy syndromes. Most epileptic encephalopathies have a genetic cause and patients are often found to carry a heterozygous de novo mutation in one of the genes associated with the disease entity. Occasionally recessive mutations are identified: a recent publication described a distinct neonatal epileptic encephalopathy (MIM 615905) caused by autosomal recessive mutations in the SLC13A5 gene. Here, we report eight additional patients belonging to four different families with autosomal recessive mutations in SLC13A5. SLC13A5 encodes a high affinity sodium-dependent citrate transporter, which is expressed in the brain. Neurons are considered incapable of de novo synthesis of tricarboxylic acid cycle intermediates; therefore they rely on the uptake of intermediates, such as citrate, to maintain their energy status and neurotransmitter production. The effect of all seven identified mutations (two premature stops and five amino acid substitutions) was studied in vitro, using immunocytochemistry, selective western blot and mass spectrometry. We hereby demonstrate that cells expressing mutant sodium-dependent citrate transporter have a complete loss of citrate uptake due to various cellular loss-of-function mechanisms. In addition, we provide independent proof of the involvement of autosomal recessive SLC13A5 mutations in the development of neonatal epileptic encephalopathies, and highlight teeth hypoplasia as a possible indicator for SLC13A5 screening. All three patients who tried the ketogenic diet responded well to this treatment, and future studies will allow us to ascertain whether this is a recurrent feature in this severe disorder.

Published

2015

22. Exome-based analysis of cardiac arrhythmia, respiratory control, and epilepsy genes in sudden unexpected death in epilepsy

Author

Bagnall, RD, Crompton, DE, Petrovski, S, Lam, L, Cutmore, C, Garry, SI, Sadleir, LG, Dibbens, LM, Cairns, A, Kivity, S, Afawi, Z, Regan, BM, Duflou, J, Berkovic, SF, Scheffer, IE, Semsarian, C, Bagnall, RD, Crompton, DE, Petrovski, S, Lam, L, Cutmore, C, Garry, SI, Sadleir, LG, Dibbens, LM, Cairns, A, Kivity, S, Afawi, Z, Regan, BM, Duflou, J, Berkovic, SF, Scheffer, IE, and Semsarian, C

Abstract

OBJECTIVE: The leading cause of epilepsy-related premature mortality is sudden unexpected death in epilepsy (SUDEP). The cause of SUDEP remains unknown. To search for genetic risk factors in SUDEP cases, we performed an exome-based analysis of rare variants. METHODS: Demographic and clinical information of 61 SUDEP cases were collected. Exome sequencing and rare variant collapsing analysis with 2,936 control exomes were performed to test for genes enriched with damaging variants. Additionally, cardiac arrhythmia, respiratory control, and epilepsy genes were screened for variants with frequency of <0.1% and predicted to be pathogenic with multiple in silico tools. RESULTS: The 61 SUDEP cases were categorized as definite SUDEP (n = 54), probable SUDEP (n = 5), and definite SUDEP plus (n = 2). We identified de novo mutations, previously reported pathogenic mutations, or candidate pathogenic variants in 28 of 61 (46%) cases. Four SUDEP cases (7%) had mutations in common genes responsible for the cardiac arrhythmia disease, long QT syndrome (LQTS). Nine cases (15%) had candidate pathogenic variants in dominant cardiac arrhythmia genes. Fifteen cases (25%) had mutations or candidate pathogenic variants in dominant epilepsy genes. No gene reached genome-wide significance with rare variant collapsing analysis; however, DEPDC5 (p = 0.00015) and KCNH2 (p = 0.0037) were among the top 30 genes, genome-wide. INTERPRETATION: A sizeable proportion of SUDEP cases have clinically relevant mutations in cardiac arrhythmia and epilepsy genes. In cases with an LQTS gene mutation, SUDEP may occur as a result of a predictable and preventable cause. Understanding the genetic basis of SUDEP may inform cascade testing of at-risk family members.

Published

2016

23. Seizures as presenting and prominent symptom in chorea-acanthocytosis with c.2343del VPS13A gene mutation

Author

Benninger, F, Afawi, Z, Korczyn, AD, Oliver, KL, Pendziwiat, M, Nakamura, M, Sano, A, Helbig, I, Berkovic, SF, Blatt, I, Benninger, F, Afawi, Z, Korczyn, AD, Oliver, KL, Pendziwiat, M, Nakamura, M, Sano, A, Helbig, I, Berkovic, SF, and Blatt, I

Abstract

OBJECTIVE: The aim of the study was to characterize the clinical features of nine patients in three families with chorea-acanthocytosis (ChAc) sharing the same rare c.2343del mutation in the VPS13A gene. METHODS: Genetic test results, clinical description, magnetic resonance imaging (MRI), and electroencephalography (EEG), as well as laboratory results are summarized. RESULTS: ChAc is a rare genetic disorder characterized by hyperkinetic movements, seizures, cognitive decline, neuropsychiatric symptoms, and acanthocytes on peripheral blood smear. This unique cohort of nine patients is characterized by seizures as a first and prominent symptom. In our patients, other features of ChAc appeared later, including tics, other movement disorders, dysarthria, and mild to moderate cognitive decline. SIGNIFICANCE: Patients with chorea-acanthocytosis carrying the described rare mutation can present with focal, treatment-resistant seizures.

Published

2016

24. Multiplex families with epilepsy Success of clinical and molecular genetic characterization

Author

Afawi, Z, Oliver, KL, Kivity, S, Mazarib, A, Blatt, I, Neufeld, MY, Helbig, KL, Goldberg-Stern, H, Misk, AJ, Straussberg, R, Walid, S, Mahajnah, M, Lerman-Sagie, T, Ben-Zeev, B, Kahana, E, Masalha, R, Kramer, U, Ekstein, D, Shorer, Z, Wallace, RH, Mangelsdorf, M, MacPherson, JN, Carvill, GL, Mefford, HC, Jackson, GD, Scheffer, IE, Bahlo, M, Gecz, J, Heron, SE, Corbett, M, Mulley, JC, Dibbens, LM, Korczyn, AD, Berkovic, SF, Afawi, Z, Oliver, KL, Kivity, S, Mazarib, A, Blatt, I, Neufeld, MY, Helbig, KL, Goldberg-Stern, H, Misk, AJ, Straussberg, R, Walid, S, Mahajnah, M, Lerman-Sagie, T, Ben-Zeev, B, Kahana, E, Masalha, R, Kramer, U, Ekstein, D, Shorer, Z, Wallace, RH, Mangelsdorf, M, MacPherson, JN, Carvill, GL, Mefford, HC, Jackson, GD, Scheffer, IE, Bahlo, M, Gecz, J, Heron, SE, Corbett, M, Mulley, JC, Dibbens, LM, Korczyn, AD, and Berkovic, SF

Abstract

OBJECTIVE: To analyze the clinical syndromes and inheritance patterns of multiplex families with epilepsy toward the ultimate aim of uncovering the underlying molecular genetic basis. METHODS: Following the referral of families with 2 or more relatives with epilepsy, individuals were classified into epilepsy syndromes. Families were classified into syndromes where at least 2 family members had a specific diagnosis. Pedigrees were analyzed and molecular genetic studies were performed as appropriate. RESULTS: A total of 211 families were ascertained over an 11-year period in Israel. A total of 169 were classified into broad familial epilepsy syndrome groups: 61 generalized, 22 focal, 24 febrile seizure syndromes, 33 special syndromes, and 29 mixed. A total of 42 families remained unclassified. Pathogenic variants were identified in 49/211 families (23%). The majority were found in established epilepsy genes (e.g., SCN1A, KCNQ2, CSTB), but in 11 families, this cohort contributed to the initial discovery (e.g., KCNT1, PCDH19, TBC1D24). We expand the phenotypic spectrum of established epilepsy genes by reporting a familial LAMC3 homozygous variant, where the predominant phenotype was epilepsy with myoclonic-atonic seizures, and a pathogenic SCN1A variant in a family where in 5 siblings the phenotype was broadly consistent with Dravet syndrome, a disorder that usually occurs sporadically. CONCLUSION: A total of 80% of families were successfully classified, with pathogenic variants identified in 23%. The successful characterization of familial electroclinical and inheritance patterns has highlighted the value of studying multiplex families and their contribution towards uncovering the genetic basis of the epilepsies.

Published

2016

25. TBC1D24 genotype-phenotype correlation: Epilepsies and other neurologic features

Author

Balestrini, S, Milh, M, Castiglioni, C, Luethy, K, Finelli, MJ, Verstreken, P, Cardon, A, Strazisar, BG, Holder, JL, Lesca, G, Mancardi, MM, Poulat, AL, Repetto, GM, Banka, S, Bilo, L, Birkeland, LE, Bosch, F, Brockmann, K, Cross, JH, Doummar, D, Felix, TM, Giuliano, F, Hori, M, Huening, I, Kayserili, H, Kini, U, Lees, MM, Meenakshi, G, Mewasingh, L, Pagnamenta, AT, Peluso, S, Mey, A, Rice, GM, Rosenfeld, JA, Taylor, JC, Troester, MM, Stanley, CM, Ville, D, Walkiewicz, M, Falace, A, Fassio, A, Lemke, JR, Biskup, S, Tardif, J, Ajeawung, NF, Tolun, A, Corbett, M, Gecz, J, Afawi, Z, Howell, KB, Oliver, KL, Berkovic, SF, Scheffer, IE, de Falco, FA, Oliver, PL, Striano, P, Zara, F, Campeau, PM, Sisodiya, SM, Balestrini, S, Milh, M, Castiglioni, C, Luethy, K, Finelli, MJ, Verstreken, P, Cardon, A, Strazisar, BG, Holder, JL, Lesca, G, Mancardi, MM, Poulat, AL, Repetto, GM, Banka, S, Bilo, L, Birkeland, LE, Bosch, F, Brockmann, K, Cross, JH, Doummar, D, Felix, TM, Giuliano, F, Hori, M, Huening, I, Kayserili, H, Kini, U, Lees, MM, Meenakshi, G, Mewasingh, L, Pagnamenta, AT, Peluso, S, Mey, A, Rice, GM, Rosenfeld, JA, Taylor, JC, Troester, MM, Stanley, CM, Ville, D, Walkiewicz, M, Falace, A, Fassio, A, Lemke, JR, Biskup, S, Tardif, J, Ajeawung, NF, Tolun, A, Corbett, M, Gecz, J, Afawi, Z, Howell, KB, Oliver, KL, Berkovic, SF, Scheffer, IE, de Falco, FA, Oliver, PL, Striano, P, Zara, F, Campeau, PM, and Sisodiya, SM

Abstract

OBJECTIVE: To evaluate the phenotypic spectrum associated with mutations in TBC1D24. METHODS: We acquired new clinical, EEG, and neuroimaging data of 11 previously unreported and 37 published patients. TBC1D24 mutations, identified through various sequencing methods, can be found online (http://lovd.nl/TBC1D24). RESULTS: Forty-eight patients were included (28 men, 20 women, average age 21 years) from 30 independent families. Eighteen patients (38%) had myoclonic epilepsies. The other patients carried diagnoses of focal (25%), multifocal (2%), generalized (4%), and unclassified epilepsy (6%), and early-onset epileptic encephalopathy (25%). Most patients had drug-resistant epilepsy. We detail EEG, neuroimaging, developmental, and cognitive features, treatment responsiveness, and physical examination. In silico evaluation revealed 7 different highly conserved motifs, with the most common pathogenic mutation located in the first. Neuronal outgrowth assays showed that some TBC1D24 mutations, associated with the most severe TBC1D24-associated disorders, are not necessarily the most disruptive to this gene function. CONCLUSIONS: TBC1D24-related epilepsy syndromes show marked phenotypic pleiotropy, with multisystem involvement and severity spectrum ranging from isolated deafness (not studied here), benign myoclonic epilepsy restricted to childhood with complete seizure control and normal intellect, to early-onset epileptic encephalopathy with severe developmental delay and early death. There is no distinct correlation with mutation type or location yet, but patterns are emerging. Given the phenotypic breadth observed, TBC1D24 mutation screening is indicated in a wide variety of epilepsies. A TBC1D24 consortium was formed to develop further research on this gene and its associated phenotypes.

Published

2016

26. TBC1D24 genotype-phenotype correlation: epilepsies and other neurologic features

Author

Karabey, Hülya Kayserili (ORCID 0000-0003-0376-499X & YÖK ID 7945), Balestrini, S.; Milh, M.; Castiglioni, C.; Luthy, K.; Finelli, M. J.; Verstreken, P.; Cardon, A.; Strazisar, B. G.; Holder, J. L.; Lesca, G.; Mancardi, M. M.; Poulat, A. L.; Repetto, G. M.; Banka, S.; Bilo, L.; Birkeland, L. E.; Bosch, F.; Brockmann, K.; Cross, J. H.; Doummar, D.; Felix, T. M.; Giuliano, F.; Hori, M.; Huning, I.; Kayserili, H.; Kini, U.; Lees, M. M.; Meenakshi, G.; Mewasingh, L.; Pagnamenta, A. T.; Peluso, S.; Mey, A.; Rice, G. M.; Rosenfeld, J. A.; Taylor, J. C.; Troester, M. M.; Stanley, C. M.; Ville, D.; Walkiewicz, M.; Falace, A.; Fassio, A.; Lemke, J. R.; Biskup, S.; Tardif, J.; Ajeawung, N. F.; Tolun, A.; Corbett, M.; Gecz, J.; Afawi, Z.; Howell, K. B.; Oliver, K. L.; Berkovic, S. F.; Scheffer, I. E.; de Falco, F. A.; Oliver, P. L.; Striano, P.; Zara, F.; Campeau, P. M.; Sisodiya, S. M., School of Medicine, Department of Medical Genetics, Karabey, Hülya Kayserili (ORCID 0000-0003-0376-499X & YÖK ID 7945), Balestrini, S.; Milh, M.; Castiglioni, C.; Luthy, K.; Finelli, M. J.; Verstreken, P.; Cardon, A.; Strazisar, B. G.; Holder, J. L.; Lesca, G.; Mancardi, M. M.; Poulat, A. L.; Repetto, G. M.; Banka, S.; Bilo, L.; Birkeland, L. E.; Bosch, F.; Brockmann, K.; Cross, J. H.; Doummar, D.; Felix, T. M.; Giuliano, F.; Hori, M.; Huning, I.; Kayserili, H.; Kini, U.; Lees, M. M.; Meenakshi, G.; Mewasingh, L.; Pagnamenta, A. T.; Peluso, S.; Mey, A.; Rice, G. M.; Rosenfeld, J. A.; Taylor, J. C.; Troester, M. M.; Stanley, C. M.; Ville, D.; Walkiewicz, M.; Falace, A.; Fassio, A.; Lemke, J. R.; Biskup, S.; Tardif, J.; Ajeawung, N. F.; Tolun, A.; Corbett, M.; Gecz, J.; Afawi, Z.; Howell, K. B.; Oliver, K. L.; Berkovic, S. F.; Scheffer, I. E.; de Falco, F. A.; Oliver, P. L.; Striano, P.; Zara, F.; Campeau, P. M.; Sisodiya, S. M., School of Medicine, and Department of Medical Genetics

Abstract

Objective: To evaluate the phenotypic spectrum associated with mutations in TBC1D24. Methods: We acquired new clinical, EEG, and neuroimaging data of 11 previously unreported and 37 published patients. TBC1D24 mutations, identified through various sequencing methods, can be found online (http://lovd.nl/TBC1D24). Results: Forty-eight patients were included (28 men, 20 women, average age 21 years) from 30 independent families. Eighteen patients (38%) had myoclonic epilepsies. The other patients carried diagnoses of focal (25%), multifocal (2%), generalized (4%), and unclassified epilepsy (6%), and early-onset epileptic encephalopathy (25%). Most patients had drug-resistant epilepsy. We detail EEG, neuroimaging, developmental, and cognitive features, treatment responsiveness, and physical examination. In silico evaluation revealed 7 different highly conserved motifs, with the most common pathogenic mutation located in the first. Neuronal outgrowth assays showed that some TBC1D24 mutations, associated with the most severe TBC1D24-associated disorders, are not necessarily the most disruptive to this gene function. Conclusions: TBC1D24-related epilepsy syndromes show marked phenotypic pleiotropy, with multisystem involvement and severity spectrum ranging from isolated deafness (not studied here), benign myoclonic epilepsy restricted to childhood with complete seizure control and normal intellect, to early-onset epileptic encephalopathy with severe developmental delay and early death. There is no distinct correlation with mutation type or location yet, but patterns are emerging. Given the phenotypic breadth observed, TBC1D24 mutation screening is indicated in a wide variety of epilepsies. A TBC1D24 consortium was formed to develop further research on this gene and its associated phenotypes., NIHR Biomedical Research Centres; Polytechnic University of Marche, Italy; Wellcome Trust; BAEF fellowship; NHMRC; Department of Health's National Institute for Health Research Biomedical Research Centres funding scheme; Gustave Nossal NHMRC postgraduate scholarship; Clifford PhD scholarship; Fondation CHU Sainte-Justine; Canadian Institutes of Health Research (CIHR); Fonds de Recherche Sante Quebec; European Research Council under the European Union; National Institute for Health Research

Published

2016

27. Familial neonatal seizures in 36 families: Clinical and genetic features correlate with outcome.

Author

Mulley J.C., Malone S., Bassan H., Goldberg-Stern H., Stanley T., Hayman M., Calvert S., Korczyn A.D., Lev D., Lerman-Sagie T., Shevell M., Scheffer I.E., Berkovic S.F., Grinton B.E., Heron S.E., Pelekanos J.T., Zuberi S.M., Kivity S., Afawi Z., Williams T.C., Casalaz D.M., Yendle S., Linder I., Mulley J.C., Malone S., Bassan H., Goldberg-Stern H., Stanley T., Hayman M., Calvert S., Korczyn A.D., Lev D., Lerman-Sagie T., Shevell M., Scheffer I.E., Berkovic S.F., Grinton B.E., Heron S.E., Pelekanos J.T., Zuberi S.M., Kivity S., Afawi Z., Williams T.C., Casalaz D.M., Yendle S., and Linder I.

Abstract

Objective We evaluated seizure outcome in a large cohort of familial neonatal seizures (FNS), and examined phenotypic overlap with different molecular lesions. Methods Detailed clinical data were collected from 36 families comprising two or more individuals with neonatal seizures. The seizure course and occurrence of seizures later in life were analyzed. Families were screened for KCNQ2, KCNQ3, SCN2A, and PRRT2 mutations, and linkage studies were performed in mutation-negative families to exclude known loci. Results Thirty-three families fulfilled clinical criteria for benign familial neonatal epilepsy (BFNE); 27 of these families had KCNQ2 mutations, one had a KCNQ3 mutation, and two had SCN2A mutations. Seizures persisting after age 6 months were reported in 31% of individuals with KCNQ2 mutations; later seizures were associated with frequent neonatal seizures. Linkage mapping in two mutation-negative BFNE families excluded linkage to KCNQ2, KCNQ3, and SCN2A, but linkage to KCNQ2 could not be excluded in the third mutation-negative BFNE family. The three remaining families did not fulfill criteria of BFNE due to developmental delay or intellectual disability; a molecular lesion was identified in two; the other family remains unsolved. Significance Most families in our cohort of familial neonatal seizures fulfill criteria for BFNE; the molecular cause was identified in 91%. Most had KCNQ2 mutations, but two families had SCN2A mutations, which are normally associated with a mixed picture of neonatal and infantile onset seizures. Seizures later in life are more common in BFNE than previously reported and are associated with a greater number of seizures in the neonatal period. Linkage studies in two families excluded known loci, suggesting a further gene is involved in BFNE.Copyright © Wiley Periodicals, Inc. © 2015 International League Against Epilepsy.

Published

2015

28. Familial neonatal seizures in 36 families: Clinical and genetic features correlate with outcome

Author

Grinton, BE, Heron, SE, Pelekanos, JT, Zuberi, SM, Kivity, S, Afawi, Z, Williams, TC, Casalaz, DM, Yendle, S, Linder, I, Lev, D, Lerman-Sagie, T, Malone, S, Bassan, H, Goldberg-Stern, H, Stanley, T, Hayman, M, Calvert, S, Korczyn, AD, Shevell, M, Scheffer, IE, Mulley, JC, Berkovic, SF, Grinton, BE, Heron, SE, Pelekanos, JT, Zuberi, SM, Kivity, S, Afawi, Z, Williams, TC, Casalaz, DM, Yendle, S, Linder, I, Lev, D, Lerman-Sagie, T, Malone, S, Bassan, H, Goldberg-Stern, H, Stanley, T, Hayman, M, Calvert, S, Korczyn, AD, Shevell, M, Scheffer, IE, Mulley, JC, and Berkovic, SF

Abstract

OBJECTIVE: We evaluated seizure outcome in a large cohort of familial neonatal seizures (FNS), and examined phenotypic overlap with different molecular lesions. METHODS: Detailed clinical data were collected from 36 families comprising two or more individuals with neonatal seizures. The seizure course and occurrence of seizures later in life were analyzed. Families were screened for KCNQ2, KCNQ3, SCN2A, and PRRT2 mutations, and linkage studies were performed in mutation-negative families to exclude known loci. RESULTS: Thirty-three families fulfilled clinical criteria for benign familial neonatal epilepsy (BFNE); 27 of these families had KCNQ2 mutations, one had a KCNQ3 mutation, and two had SCN2A mutations. Seizures persisting after age 6 months were reported in 31% of individuals with KCNQ2 mutations; later seizures were associated with frequent neonatal seizures. Linkage mapping in two mutation-negative BFNE families excluded linkage to KCNQ2, KCNQ3, and SCN2A, but linkage to KCNQ2 could not be excluded in the third mutation-negative BFNE family. The three remaining families did not fulfill criteria of BFNE due to developmental delay or intellectual disability; a molecular lesion was identified in two; the other family remains unsolved. SIGNIFICANCE: Most families in our cohort of familial neonatal seizures fulfill criteria for BFNE; the molecular cause was identified in 91%. Most had KCNQ2 mutations, but two families had SCN2A mutations, which are normally associated with a mixed picture of neonatal and infantile onset seizures. Seizures later in life are more common in BFNE than previously reported and are associated with a greater number of seizures in the neonatal period. Linkage studies in two families excluded known loci, suggesting a further gene is involved in BFNE.

Published

2015

29. Targeted resequencing in epileptic encephalopathies identifies de novo mutations in CHD2 and SYNGAP1.

Author

Mefford H.C., Andrade D.M., Freeman J.L., Sadleir L.G., Shendure J., Berkovic S.F., Scheffer I.E., Carvill G.L., Heavin S.B., Yendle S.C., McMahon J.M., O'Roak B.J., Cook J., Khan A., Dorschner M.O., Weaver M., Calvert S., Malone S., Wallace G., Stanley T., Bye A.M.E., Bleasel A., Howell K.B., Kivity S., Mackay M.T., Rodriguez-Casero V., Webster R., Korczyn A., Afawi Z., Zelnick N., Lerman-Sagie T., Lev D., Moller R.S., Gill D., Mefford H.C., Andrade D.M., Freeman J.L., Sadleir L.G., Shendure J., Berkovic S.F., Scheffer I.E., Carvill G.L., Heavin S.B., Yendle S.C., McMahon J.M., O'Roak B.J., Cook J., Khan A., Dorschner M.O., Weaver M., Calvert S., Malone S., Wallace G., Stanley T., Bye A.M.E., Bleasel A., Howell K.B., Kivity S., Mackay M.T., Rodriguez-Casero V., Webster R., Korczyn A., Afawi Z., Zelnick N., Lerman-Sagie T., Lev D., Moller R.S., and Gill D.

Abstract

Epileptic encephalopathies are a devastating group of epilepsies with poor prognosis, of which the majority are of unknown etiology. We perform targeted massively parallel resequencing of 19 known and 46 candidate genes for epileptic encephalopathy in 500 affected individuals (cases) to identify new genes involved and to investigate the phenotypic spectrum associated with mutations in known genes. Overall, we identified pathogenic mutations in 10% of our cohort. Six of the 46 candidate genes had 1 or more pathogenic variants, collectively accounting for 3% of our cohort. We show that de novo CHD2 and SYNGAP1 mutations are new causes of epileptic encephalopathies, accounting for 1.2% and 1% of cases, respectively. We also expand the phenotypic spectra explained by SCN1A, SCN2A and SCN8A mutations. To our knowledge, this is the largest cohort of cases with epileptic encephalopathies to undergo targeted resequencing. Implementation of this rapid and efficient method will change diagnosis and understanding of the molecular etiologies of these disorders. © 2013 Nature America, Inc. All rights reserved.

Published

2013

30. Targeted resequencing in epileptic encephalopathies identifies de novo mutations in CHD2 and SYNGAP1

Author

Carvill, GL, Heavin, SB, Yendle, SC, McMahon, JM, O'Roak, BJ, Cook, J, Khan, A, Dorschner, MO, Weaver, M, Calvert, S, Malone, S, Wallace, G, Stanley, T, Bye, AME, Bleasel, A, Howell, KB, Kivity, S, Mackay, MT, Rodriguez-Casero, V, Webster, R, Korczyn, A, Afawi, Z, Zelnick, N, Lerman-Sagie, T, Lev, D, Moller, RS, Gill, D, Andrade, DM, Freeman, JL, Sadleir, LG, Shendure, J, Berkovic, SF, Scheffer, IE, Mefford, HC, Carvill, GL, Heavin, SB, Yendle, SC, McMahon, JM, O'Roak, BJ, Cook, J, Khan, A, Dorschner, MO, Weaver, M, Calvert, S, Malone, S, Wallace, G, Stanley, T, Bye, AME, Bleasel, A, Howell, KB, Kivity, S, Mackay, MT, Rodriguez-Casero, V, Webster, R, Korczyn, A, Afawi, Z, Zelnick, N, Lerman-Sagie, T, Lev, D, Moller, RS, Gill, D, Andrade, DM, Freeman, JL, Sadleir, LG, Shendure, J, Berkovic, SF, Scheffer, IE, and Mefford, HC

Abstract

Epileptic encephalopathies are a devastating group of epilepsies with poor prognosis, of which the majority are of unknown etiology. We perform targeted massively parallel resequencing of 19 known and 46 candidate genes for epileptic encephalopathy in 500 affected individuals (cases) to identify new genes involved and to investigate the phenotypic spectrum associated with mutations in known genes. Overall, we identified pathogenic mutations in 10% of our cohort. Six of the 46 candidate genes had 1 or more pathogenic variants, collectively accounting for 3% of our cohort. We show that de novo CHD2 and SYNGAP1 mutations are new causes of epileptic encephalopathies, accounting for 1.2% and 1% of cases, respectively. We also expand the phenotypic spectra explained by SCN1A, SCN2A and SCN8A mutations. To our knowledge, this is the largest cohort of cases with epileptic encephalopathies to undergo targeted resequencing. Implementation of this rapid and efficient method will change diagnosis and understanding of the molecular etiologies of these disorders.

Published

2013

31. PRRT2 Mutations Cause Benign Familial Infantile Epilepsy and Infantile Convulsions with Choreoathetosis Syndrome

Author

Heron, SE, Grinton, BE, Kivity, S, Afawi, Z, Zuberi, SM, Hughes, JN, Pridmore, C, Hodgson, BL, Iona, X, Sadleir, LG, Pelekanos, J, Herlenius, E, Goldberg-Stern, H, Bassan, H, Haan, E, Korczyn, AD, Gardner, AE, Corbett, MA, Gecz, J, Thomas, PQ, Mulley, JC, Berkovic, SF, Scheffer, IE, Dibbens, LM, Heron, SE, Grinton, BE, Kivity, S, Afawi, Z, Zuberi, SM, Hughes, JN, Pridmore, C, Hodgson, BL, Iona, X, Sadleir, LG, Pelekanos, J, Herlenius, E, Goldberg-Stern, H, Bassan, H, Haan, E, Korczyn, AD, Gardner, AE, Corbett, MA, Gecz, J, Thomas, PQ, Mulley, JC, Berkovic, SF, Scheffer, IE, and Dibbens, LM

Abstract

Benign familial infantile epilepsy (BFIE) is a self-limited seizure disorder that occurs in infancy and has autosomal-dominant inheritance. We have identified heterozygous mutations in PRRT2, which encodes proline-rich transmembrane protein 2, in 14 of 17 families (82%) affected by BFIE, indicating that PRRT2 mutations are the most frequent cause of this disorder. We also report PRRT2 mutations in five of six (83%) families affected by infantile convulsions and choreoathetosis (ICCA) syndrome, a familial syndrome in which infantile seizures and an adolescent-onset movement disorder, paroxysmal kinesigenic choreoathetosis (PKC), co-occur. These findings show that mutations in PRRT2 cause both epilepsy and a movement disorder. Furthermore, PRRT2 mutations elicit pleiotropy in terms of both age of expression (infancy versus later childhood) and anatomical substrate (cortex versus basal ganglia).

Published

2012

32. PRRT2 phenotypic spectrum includes sporadic and fever-related infantile seizures

Author

Scheffer, IE, Grinton, BE, Heron, SE, Kivity, S, Afawi, Z, Iona, X, Goldberg-Stern, H, Kinali, M, Andrews, I, Guerrini, R, Marini, C, Sadleir, LG, Berkovic, SF, Dibbens, LM, Scheffer, IE, Grinton, BE, Heron, SE, Kivity, S, Afawi, Z, Iona, X, Goldberg-Stern, H, Kinali, M, Andrews, I, Guerrini, R, Marini, C, Sadleir, LG, Berkovic, SF, and Dibbens, LM

Abstract

OBJECTIVE: Benign familial infantile epilepsy (BFIE) is an autosomal dominant epilepsy syndrome characterized by afebrile seizures beginning at about 6 months of age. Mutations in PRRT2, encoding the proline-rich transmembrane protein 2 gene, have recently been identified in the majority of families with BFIE and the associated syndrome of infantile convulsions and choreoathetosis (ICCA). We asked whether the phenotypic spectrum of PRRT2 was broader than initially recognized by studying patients with sporadic benign infantile seizures and non-BFIE familial infantile seizures for PRRT2 mutations. METHODS: Forty-four probands with infantile-onset seizures, infantile convulsions with mild gastroenteritis, and benign neonatal seizures underwent detailed phenotyping and PRRT2 sequencing. The familial segregation of mutations identified in probands was studied. RESULTS: The PRRT2 mutation c.649-650insC (p.R217fsX224) was identified in 11 probands. Nine probands had a family history of BFIE or ICCA. Two probands had no family history of infantile seizures or paroxysmal kinesigenic dyskinesia and had de novo PRRT2 mutations. Febrile seizures with or without afebrile seizures were observed in 2 families with PRRT2 mutations. CONCLUSIONS: PRRT2 mutations are present in >80% of BFIE and >90% ICCA families, but are not a common cause of other forms of infantile epilepsy. De novo mutations of PRRT2 can cause sporadic benign infantile seizures. Seizures with fever may occur in BFIE such that it may be difficult to distinguish BFIE from febrile seizures and febrile seizures plus in small families.

Published

2012

33. Paroxysmal exercise-induced dyskinesia and epilepsy is due to mutations in SLC2A1, encoding the glucose transporter GLUT1

Author

Suls, A, Dedeken, P, Goffin, K, Van Esch, H, Dupont, P, Cassiman, D, Kempfle, J, Wuttke, TV, Weber, Y, Lerche, H, Afawi, Z, Vandenberghe, W, Korczyn, AD, Berkovic, SF, Ekstein, D, Kivity, S, Ryvlin, P, Claes, LRF, Deprez, L, Maljevic, S, Vargas, A, Van Dyck, T, Goossens, D, Del-Favero, J, Van Laere, K, De Jonghe, P, Paesschen, W, Suls, A, Dedeken, P, Goffin, K, Van Esch, H, Dupont, P, Cassiman, D, Kempfle, J, Wuttke, TV, Weber, Y, Lerche, H, Afawi, Z, Vandenberghe, W, Korczyn, AD, Berkovic, SF, Ekstein, D, Kivity, S, Ryvlin, P, Claes, LRF, Deprez, L, Maljevic, S, Vargas, A, Van Dyck, T, Goossens, D, Del-Favero, J, Van Laere, K, De Jonghe, P, and Paesschen, W

Abstract

Paroxysmal exercise-induced dyskinesia (PED) can occur in isolation or in association with epilepsy, but the genetic causes and pathophysiological mechanisms are still poorly understood. We performed a clinical evaluation and genetic analysis in a five-generation family with co-occurrence of PED and epilepsy (n = 39), suggesting that this combination represents a clinical entity. Based on a whole genome linkage analysis we screened SLC2A1, encoding the glucose transporter of the blood-brain-barrier, GLUT1 and identified heterozygous missense and frameshift mutations segregating in this and three other nuclear families with a similar phenotype. PED was characterized by choreoathetosis, dystonia or both, affecting mainly the legs. Predominant epileptic seizure types were primary generalized. A median CSF/blood glucose ratio of 0.52 (normal >0.60) in the patients and a reduced glucose uptake by mutated transporters compared with the wild-type as determined in Xenopus oocytes confirmed a pathogenic role of these mutations. Functional imaging studies implicated alterations in glucose metabolism in the corticostriate pathways in the pathophysiology of PED and in the frontal lobe cortex in the pathophysiology of epileptic seizures. Three patients were successfully treated with a ketogenic diet. In conclusion, co-occurring PED and epilepsy can be due to autosomal dominant heterozygous SLC2A1 mutations, expanding the phenotypic spectrum associated with GLUT1 deficiency and providing a potential new treatment option for this clinical syndrome.

Published

2008

34. Blood-brain barrier disruption in post-traumatic epilepsy

Author

Tomkins, O, Shelef, I, Kaizerman, I, Eliushin, A, Afawi, Z, Misk, A, Gidon, M, Cohen, A, Zumsteg, D, Friedman, A, Tomkins, O, Shelef, I, Kaizerman, I, Eliushin, A, Afawi, Z, Misk, A, Gidon, M, Cohen, A, Zumsteg, D, and Friedman, A

Abstract

BACKGROUND: Traumatic brain injury (TBI) is an important cause of focal epilepsy. Animal experiments indicate that disruption of the blood-brain barrier (BBB) plays a critical role in the pathogenesis of post-traumatic epilepsy (PTE). OBJECTIVE: To investigate the frequency, extent and functional correlates of increased BBB permeability in patient with PTE. METHODS: 32 head trauma patients were included in the study, with 17 suffering from PTE. Patients underwent brain MRI (bMRI) and were evaluated for BBB disruption, using a novel semi-quantitative technique. Cortical dysfunction was measured using electroencephalography (EEG), and localised using standardised low-resolution brain electromagnetic tomography (sLORETA). RESULTS: Spectral EEG analyses revealed significant slowing in patients with TBI, with no significant differences between patients with epilepsy and those without. Although bMRI revealed that patients with PTE were more likely to present with intracortical lesions (p = 0.02), no differences in the size of the lesion were found between the groups (p = 0.19). Increased BBB permeability was found in 76.9% of patients with PTE compared with 33.3% of patients without epilepsy (p = 0.047), and could be observed years following the trauma. Cerebral cortex volume with BBB disruption was larger in patients with PTE (p = 0.001). In 70% of patients, slow (delta band) activity was co-localised, by sLORETA, with regions showing BBB disruption. CONCLUSIONS: Lasting BBB pathology is common in patients with mild TBI, with increased frequency and extent being observed in patients with PTE. A correlation between disrupted BBB and abnormal neuronal activity is suggested.

Published

2008

35. PRRT2 mutations: exploring the phenotypical boundaries

Author

Djemie, T., primary, Weckhuysen, S., additional, Holmgren, P., additional, Hardies, K., additional, Van Dyck, T., additional, Hendrickx, R., additional, Schoonjans, A.-S., additional, Van Paesschen, W., additional, Jansen, A. C., additional, De Meirleir, L., additional, Selim, L. A. M., additional, Girgis, M. Y., additional, Buyse, G., additional, Lagae, L., additional, Smets, K., additional, Smouts, I., additional, Claeys, K. G., additional, Van den Bergh, V., additional, Grisar, T., additional, Blatt, I., additional, Shorer, Z., additional, Roelens, F., additional, Afawi, Z., additional, Helbig, I., additional, Ceulemans, B., additional, De Jonghe, P., additional, and Suls, A., additional

Published

2013

36. PRRT2 phenotypic spectrum includes sporadic and fever-related infantile seizures

Author

Scheffer, I. E., primary, Grinton, B. E., additional, Heron, S. E., additional, Kivity, S., additional, Afawi, Z., additional, Iona, X., additional, Goldberg-Stern, H., additional, Kinali, M., additional, Andrews, I., additional, Guerrini, R., additional, Marini, C., additional, Sadleir, L. G., additional, Berkovic, S. F., additional, and Dibbens, L. M., additional

Published

2012

37. PO18-WE-04 Neuroepidemiology and genetics of epilepsy among Jews and Arabs in Israel

Author

Afawi, Z., primary, Korczyn, A.D., additional, and Berkovic, S.F., additional

Published

2009

38. Paroxysmal exercise-induced dyskinesia and epilepsy is due to mutations in SLC2A1, encoding the glucose transporter GLUT1

Author

Suls, A., primary, Dedeken, P., additional, Goffin, K., additional, Van Esch, H., additional, Dupont, P., additional, Cassiman, D., additional, Kempfle, J., additional, Wuttke, T. V., additional, Weber, Y., additional, Lerche, H., additional, Afawi, Z., additional, Vandenberghe, W., additional, Korczyn, A. D., additional, Berkovic, S. F., additional, Ekstein, D., additional, Kivity, S., additional, Ryvlin, P., additional, Claes, L. R. F., additional, Deprez, L., additional, Maljevic, S., additional, Vargas, A., additional, Van Dyck, T., additional, Goossens, D., additional, Del-Favero, J., additional, Van Laere, K., additional, De Jonghe, P., additional, and Van Paesschen, W., additional

Published

2008

39. Epidemiological characteristics of febrile seizures-Comparing between Bedouin and Jews in the Southern part of Israel.

Author

Shimony A, Afawi Z, Asher T, Mahajnah M, and Shorer Z

Published

2009

40. Multiplex families with epilepsy: Success of clinical and molecular genetic characterization

Author

Afawi Z, Kl, Oliver, Kivity S, Mazarib A, Blatt I, My, Neufeld, Katherine Helbig, Goldberg-Stern H, Aj, Misk, Straussberg R, Walid S, Mahajnah M, Lerman-Sagie T, Ben-Zeev B, Kahana E, Masalha R, Kramer U, Ekstein D, Shorer Z, and Rh, Wallace

41. Paroxysmal exercise-induced dyskinesia and epilepsy due to mutations in SLC2A1, encoding the glucose transporter, Gluti

Author

David Cassiman, Suls, A., Dedeken, P., Goffin, K., Esch, H., Dupont, P., Kempfle, J., Wuttke, T. V., Weber, Y., Lerche, H., Afawi, Z., Korezyn, A. D., Berkovic, S. F., Ekstein, D., Kivity, S., Ryvlin, P., Claes, L. R. F., Deprez, L., Maljevic, S., Vargas, A., Dyck, T., Goossens, D., Del-Favero, J., Laere, K., Jonghe, P., and Paesschen, W.

42. A recurrent de novo mutation in KCNC1 causes progressive myoclonus epilepsy (vol 47, pg 39, 2015)

Author

Muona, M., Berkovic, S. F., Dibbens, L. M., Karen Oliver, Maljevic, S., Bayly, M. A., Joensuu, T., Canafoglia, L., Franceschetti, S., Michelucci, R., Markkinen, S., Heron, S. E., Hildebrand, M. S., Andermann, E., Andermann, F., Gambardella, A., Tinuper, P., Licchetta, L., Scheffer, I. E., Criscuolo, C., Filla, A., Ferlazzo, E., Ahmad, J., Ahmad, A., Baykan, B., Said, E., Topcu, M., Riguzzi, P., King, M. D., Ozkara, C., Andrade, D. M., Engelsen, B. A., Crespel, A., Lindenau, M., Lohmann, E., Saletti, V., Massano, J., Privitera, M., Espay, A. J., Kauffmann, B., Duchowny, M., Moller, R. S., Straussberg, R., Afawi, Z., Ben-Zeev, B., Samocha, K. E., Daly, M. J., Petrou, S., Lerche, H., Palotie, A., and Lehesjoki, A. E.

43. Glucose Transporter 1 deficiency and associated conditions in children

Author

Gamirova R., Afawi Z., Gorobets E., Prusakov V., Volgina S., Gamirova R., Afawi Z., Gorobets E., Prusakov V., and Volgina S.

Abstract

© 2019 National Academy of Pediatric Science and Innovation. All rights reserved. The article reviews literature devoted to the glucose transporter type I deficiency syndrome (synonyms: GLUT1 deficiency syndrome, de Vivo disease), that is a genetically determined disease caused by pathogenic variants of the SLC2A1 gene. The insufficiency of this protein leads to the disruption of glucose delivery to the brain through the blood-brain barrier. Clinically, the syndrome is manifested by epileptic seizures (mainly as absences or myoclonic seizures), various motor disorders and psychomotor retardation starting from the early age. Early diagnosis (including molecular genetic analysis of the SLC2A1 gene) enables us to start treatment and prevent progression of the symptoms, and to provide the family with genetic consultation on the prognosis and risks for the next generations. Ketogenic diet is an effective treatment option for this pathological condition, it can lead to a regression of the clinical manifestations, especially on the early stage.

44. Intronic ATTTC repeat expansions in STARD7 in familial adult myoclonic epilepsy linked to chromosome 2

Author

Marina A. J. Tijssen, Mark A. Corbett, Zaid Afawi, Paolo Tinuper, Shoji Tsuji, Rachel Straussberg, Ilan Blatt, Samuel F. Berkovic, Francesco Brancati, Amy L Schneider, Lynette G. Sadleir, Sanjay M. Sisodiya, Renzo Guerrini, Shreyasee Chakraborty, Alfredo Berardelli, Silvana Franceschetti, Jozef Gecz, Luciano Xumerle, Pierre Labauge, Liana Veneziano, Simona Balestrini, Ingo Helbig, Martin A. Smith, Laura Canafoglia, Carlo Di Bonaventura, Hiroyuki Ishiura, Boris Keren, Manuela Pendziwiat, Rahel T. Florian, Sylvie Forlani, Anne Fleur van Rootselaar, Giorgio Casari, Christel Depienne, Tommaso Pippucci, Douglas E. Crompton, Edouard Hirsch, Davide Mei, Laura Licchetta, Renee Carroll, Riaan van Coller, Ingrid E. Scheffer, Thessa Kroes, Pasquale Striano, Brigid M. Regan, Francesca Bisulli, Shaun Carswell, Antonio Suppa, Julien Buratti, Karl Martin Klein, Alison Gardner, Caroline Nava, Federico Zara, Melanie Bahlo, Sabine Kaya, Kathryn Friend, Antonietta Coppola, Massimo Delledonne, Aaron M. Wenger, Anthony Correll, Sara Baldassari, Arn M. J. M. van den Maagdenberg, Eric LeGuern, Rachael Catford, Gabrielle Rudolf, Salvatore Striano, Mark F. Bennett, Josemir W. Sander, Kirston Barton, Michele Iacomino, Corbett M.A., Kroes T., Veneziano L., Bennett M.F., Florian R., Schneider A.L., Coppola A., Licchetta L., Franceschetti S., Suppa A., Wenger A., Mei D., Pendziwiat M., Kaya S., Delledonne M., Straussberg R., Xumerle L., Regan B., Crompton D., van Rootselaar A.-F., Correll A., Catford R., Bisulli F., Chakraborty S., Baldassari S., Tinuper P., Barton K., Carswell S., Smith M., Berardelli A., Carroll R., Gardner A., Friend K.L., Blatt I., Iacomino M., Di Bonaventura C., Striano S., Buratti J., Keren B., Nava C., Forlani S., Rudolf G., Hirsch E., Leguern E., Labauge P., Balestrini S., Sander J.W., Afawi Z., Helbig I., Ishiura H., Tsuji S., Sisodiya S.M., Casari G., Sadleir L.G., van Coller R., Tijssen M.A.J., Klein K.M., van den Maagdenberg A.M.J.M., Zara F., Guerrini R., Berkovic S.F., Pippucci T., Canafoglia L., Bahlo M., Striano P., Scheffer I.E., Brancati F., Depienne C., Gecz J., Neurology, ANS - Brain Imaging, Movement Disorder (MD), Corbett, M. A., Kroes, T., Veneziano, L., Bennett, M. F., Florian, R., Schneider, A. L., Coppola, A., Licchetta, L., Franceschetti, S., Suppa, A., Wenger, A., Mei, D., Pendziwiat, M., Kaya, S., Delledonne, M., Straussberg, R., Xumerle, L., Regan, B., Crompton, D., van Rootselaar, A. -F., Correll, A., Catford, R., Bisulli, F., Chakraborty, S., Baldassari, S., Tinuper, P., Barton, K., Carswell, S., Smith, M., Berardelli, A., Carroll, R., Gardner, A., Friend, K. L., Blatt, I., Iacomino, M., Di Bonaventura, C., Striano, S., Buratti, J., Keren, B., Nava, C., Forlani, S., Rudolf, G., Hirsch, E., Leguern, E., Labauge, P., Balestrini, S., Sander, J. W., Afawi, Z., Helbig, I., Ishiura, H., Tsuji, S., Sisodiya, S. M., Casari, G., Sadleir, L. G., van Coller, R., Tijssen, M. A. J., Klein, K. M., van den Maagdenberg, A. M. J. M., Zara, F., Guerrini, R., Berkovic, S. F., Pippucci, T., Canafoglia, L., Bahlo, M., Striano, P., Scheffer, I. E., Brancati, F., Depienne, C., and Gecz, J.

Subjects

0301 basic medicine, Male, Myoclonus, Medizin, General Physics and Astronomy, Epilepsies, Myoclonic, Epilepsies, Intronic variant, repeat expansions,STARD7, familial adult myoclonic epilepsy, chromosome 2, Epilepsy, 0302 clinical medicine, DOMINANT CORTICAL TREMOR, EXPRESSION ANALYSIS, PEDIGREE, LOCUS, LINKAGE, GENE, 2P11.1-Q12.2, REFINEMENT, MUTATION, BAFME, lcsh:Science, Child, Genetics, Multidisciplinary, DNA Repeat Expansion, Disease genetics, Chromosome Mapping, Middle Aged, Pedigree, Myoclonic Epilepsy, Child, Preschool, Chromosomes, Human, Pair 2, Pair 2, STARD7, Female, Adolescent, Adult, Carrier Proteins, Humans, Young Adult, Introns, Human, Science, Locus (genetics), Biology, Chromosomes, General Biochemistry, Genetics and Molecular Biology, Article, 03 medical and health sciences, medicine, Preschool, Gene, Whole genome sequencing, Intron, Chromosome, General Chemistry, medicine.disease, 030104 developmental biology, Microsatellite instability, Myoclonic epilepsy, lcsh:Q, Familial Adult Myoclonic Epilepsy, Myoclonic, Carrier Protein, 030217 neurology & neurosurgery, Neurological disorders

Abstract

Familial Adult Myoclonic Epilepsy (FAME) is characterised by cortical myoclonic tremor usually from the second decade of life and overt myoclonic or generalised tonic-clonic seizures. Four independent loci have been implicated in FAME on chromosomes (chr) 2, 3, 5 and 8. Using whole genome sequencing and repeat primed PCR, we provide evidence that chr2-linked FAME (FAME2) is caused by an expansion of an ATTTC pentamer within the first intron of STARD7. The ATTTC expansions segregate in 158/158 individuals typically affected by FAME from 22 pedigrees including 16 previously reported families recruited worldwide. RNA sequencing from patient derived fibroblasts shows no accumulation of the AUUUU or AUUUC repeat sequences and STARD7 gene expression is not affected. These data, in combination with other genes bearing similar mutations that have been implicated in FAME, suggest ATTTC expansions may cause this disorder, irrespective of the genomic locus involved., Familial cortical myoclonic tremor (FAME) has so far been mapped to regions on chromosome 2, 3, 5 and 8 and pentameric repeat expansions in SAMD12 were identified as cause of FAME1. Here, Corbett et al. identify ATTTT/ATTTC repeat expansions in intron 1 of STARD7 in individuals with FAME2.”

Published

2019

45. Sub-genic intolerance, ClinVar, and the epilepsies: A whole-exome sequencing study of 29,165 individuals

Author

Joshua E. Motelow, Gundula Povysil, Ryan S. Dhindsa, Kate E. Stanley, Andrew S. Al- len, Yen-Chen Anne Feng, Daniel P. Howrigan, Liam E. Abbott, Ka- therine Tashman, Felecia Cerrato, Caroline Cusick, Tarjinder Singh, Henrike Heyne, Andrea E. Byrnes, Claire Churchhouse, Nick Watts, Matthew Solomonson, Dennis Lal, Namrata Gupta, Benjamin M. Neale, Gianpiero L. Cavalleri, Patrick Cossette, Chris Cotsapas, Peter De Jonghe, Tracy Dixon-Salazar, Renzo Guerrini, Hakon Hakonarson, Erin L. Heinzen, Ingo Helbig, Patrick Kwan, Anthony G. Marson, Slave ? Petrovski, Sitharthan Kamalakaran, Sanjay M. Sisodiya, Randy Stewart, Sarah Weckhuysen, Chantal Depondt, Dennis J. Dlugos, Ingrid E. Scheffer, Pasquale Striano, Catharine Freyer, Roland Krause, Patrick May, Kevin McKenna, Brigid M. Regan, Caitlin A. Bennett, Costin Leu, Stephanie L. Leech, Terence J. O'Brien, Marian Todaro, Hannah Stamberger, Danielle M. Andrade, Quratulain Zulfiqar Ali, Tara R. Sadoway, Heinz Krestel, Andre ? Schaller, Savvas S. Papacostas, Ioanna Kou- siappa, George A. Tanteles, Yiolanda Christou, Katalin Sterbova ?, Marke ? ta Vlckova ?, Lucie Sedlackova, Petra Lassuthova ?, Karl Martin Klein, Felix Rosenow, Philipp S. Reif, Susanne Knake, Bernd A. Neubauer, Friedrich Zimprich, Martha Feucht, Eva M. Reinthaler, Wolfram S. Kunz, Ga ?bor Zsurka, Rainer Surges, Tobias Baumgart- ner, Randi von Wrede, Manuela Pendziwiat, Hiltrud Muhle, An- nika Rademacher, Andreas van Baalen, Sarah von Spiczak, Ulrich Stephani, Zaid Afawi, Amos D. Korczyn, Moien Kanaan, Christina Canavati, Gerhard Kurlemann, Karen Mu ?ller-Schlu ?ter, Gerhard Kluger, Martin Ha ?usler, Ilan Blatt, Johannes R. Lemke, Ilona Krey, Yvonne G. Weber, Stefan Wolking, Felicitas Becker, Stephan Lauxmann, Christian Boßelmann, Josua Kegele, Christian Hengs- bach, Sarah Rau, Bernhard J. Steinhoff, Andreas Schulze-Bonhage, IngoBorggra ?fe, ChristophJ.Schankin, SusanneSchubert-Bast, Herbert Schreiber, Thomas Mayer, Rudolf Korinthenberg, Knut Brockmann, Markus Wolff, Dieter Dennig, Rene Madeleyn, Reetta Ka ?lvia ?inen, Anni Saarela, Oskari Timonen, Tarja Linnankivi, Anna-Elina Lehesjoki, Sylvain Rheims, Gaetan Lesca, Philippe Ryvlin, Louis Maillard, Luc Valton, Philippe Derambure, Fabrice Bartolomei, Edouard Hirsch, Ve ?ronique Michel, Francine Chas- soux, Mark I. Rees, Seo-Kyung Chung, William O. Pickrell, Robert Powell, Mark D. Baker, Beata Fonferko-Shadrach, Charlotte Law- thom, Joseph Anderson, Natascha Schneider, Simona Balestrini, Sara Zagaglia, Vera Braatz, Michael R. Johnson, Pauls Auce, Graeme J. Sills, Larry W. Baum, Pak C. Sham, Stacey S. Cherny, Colin H.T. Lui, Norman Delanty, Colin P. Doherty, Arif Shukralla, Hany El-Naggar, Peter Widdess-Walsh, Nina Barisic, Laura 12 The American Journal of Human Genetics 108, 1-18, June 3, 2021 Please cite this article in press as: Epi25 Collaborative, Sub-genic intolerance, ClinVar, the epilepsies: A whole-exome sequencing study of 29, 165 individuals, The American Journal of Human Genetics (2021), https://doi.org/10.1016/j.ajhg.2021.04.009 Canafoglia, Silvana Franceschetti, Barbara Castellotti, Tiziana Granata, Francesca Ragona, Federico Zara, Michele Iacomino, An- tonella Riva, Francesca Madia, Maria Stella Vari, Vincenzo Salpie- tro, Marcello Scala, Maria Margherita Mancardi, Lino Nobili, Elisa- betta Amadori, Thea Giacomini, Francesca Bisulli, Tommaso Pippucci, Laura Licchetta, Raffaella Minardi, Paolo Tinuper, Lor- enzo Muccioli, Barbara Mostacci, Antonio Gambardella, Angelo Labate, Grazia Annesi, Lorella Manna, Monica Gagliardi, Elena Parrini, Davide Mei, Annalisa Vetro, Claudia Bianchini, Martino Montomoli, Viola Doccini, Carmen Barba, Shinichi Hirose, At- sushi Ishii, Toshimitsu Suzuki, Yushi Inoue, Kazuhiro Yamakawa, Ahmad Beydoun, Wassim Nasreddine, Nathalie Khoueiry Zgheib, Birute Tumiene, Algirdas Utkus, Lynette G. Sadleir, Chontelle King, S. Hande Caglayan, Mutluay Arslan, Zuhal Yap?c?, P?nar To- paloglu, Bulent Kara, Uluc Yis, Dilsad Turkdogan, Asl? Gun- dogdu-Eken, Nerses Bebek, Meng-Han Tsai, Chen-Jui Ho, Chih- Hsiang Lin, Kuang-Lin Lin, I-Jun Chou, Annapurna Poduri, Beth R. Shiedley, Catherine Shain, Jeffrey L. Noebels, Alicia Goldman, Robyn M. Busch, Lara Jehi, Imad M. Najm, Lisa Ferguson, Jean Khoury, Tracy A. Glauser, Peggy O. Clark, Russell J. Buono, Thomas N. Ferraro, Michael R. Sperling, Warren Lo, Michael Privitera, Jac- queline A. French, Steven Schachter, Ruben I. Kuzniecky, Orrin Devinsky, Manu Hegde, David A. Greenberg, Colin A. Ellis, Ethan Goldberg, Katherine L. Helbig, Mahgenn Cosico, Priya Vaidis- waran, Eryn Fitch, Samuel F. Berkovic, Holger Lerche, Daniel H. Lowenstein, David B. Goldstein., Motelow J.E., Povysil G., Dhindsa R.S., Stanley K.E., Allen A.S., Feng Y.-C.A., Howrigan D.P., Abbott L.E., Tashman K., Cerrato F., Cusick C., Singh T., Heyne H., Byrnes A.E., Churchhouse C., Watts N., Solomonson M., Lal D., Gupta N., Neale B.M., Cavalleri G.L., Cossette P., Cotsapas C., De Jonghe P., Dixon-Salazar T., Guerrini R., Hakonarson H., Heinzen E.L., Helbig I., Kwan P., Marson A.G., Petrovski S., Kamalakaran S., Sisodiya S.M., Stewart R., Weckhuysen S., Depondt C., Dlugos D.J., Scheffer I.E., Striano P., Freyer C., Krause R., May P., McKenna K., Regan B.M., Bennett C.A., Leu C., Leech S.L., O'Brien T.J., Todaro M., Stamberger H., Andrade D.M., Ali Q.Z., Sadoway T.R., Krestel H., Schaller A., Papacostas S.S., Kousiappa I., Tanteles G.A., Christou Y., Sterbova K., Vlckova M., Sedlackova L., Lassuthova P., Klein K.M., Rosenow F., Reif P.S., Knake S., Neubauer B.A., Zimprich F., Feucht M., Reinthaler E.M., Kunz W.S., Zsurka G., Surges R., Baumgartner T., von Wrede R., Pendziwiat M., Muhle H., Rademacher A., van Baalen A., von Spiczak S., Stephani U., Afawi Z., Korczyn A.D., Kanaan M., Canavati C., Kurlemann G., Muller-Schluter K., Kluger G., Hausler M., Blatt I., Lemke J.R., Krey I., Weber Y.G., Wolking S., Becker F., Lauxmann S., Bosselmann C., Kegele J., Hengsbach C., Rau S., Steinhoff B.J., Schulze-Bonhage A., Borggrafe I., Schankin C.J., Schubert-Bast S., Schreiber H., Mayer T., Korinthenberg R., Brockmann K., Wolff M., Dennig D., Madeleyn R., Kalviainen R., Saarela A., Timonen O., Linnankivi T., Lehesjoki A.-E., Rheims S., Lesca G., Ryvlin P., Maillard L., Valton L., Derambure P., Bartolomei F., Hirsch E., Michel V., Chassoux F., Rees M.I., Chung S.-K., Pickrell W.O., Powell R., Baker M.D., Fonferko-Shadrach B., Lawthom C., Anderson J., Schneider N., Balestrini S., Zagaglia S., Braatz V., Johnson M.R., Auce P., Sills G.J., Baum L.W., Sham P.C., Cherny S.S., Lui C.H.T., Delanty N., Doherty C.P., Shukralla A., El-Naggar H., Widdess-Walsh P., Barisic N., Canafoglia L., Franceschetti S., Castellotti B., Granata T., Ragona F., Zara F., Iacomino M., Riva A., Madia F., Vari M.S., Salpietro V., Scala M., Mancardi M.M., Nobili L., Amadori E., Giacomini T., Bisulli F., Pippucci T., Licchetta L., Minardi R., Tinuper P., Muccioli L., Mostacci B., Gambardella A., Labate A., Annesi G., Manna L., Gagliardi M., Parrini E., Mei D., Vetro A., Bianchini C., Montomoli M., Doccini V., Barba C., Hirose S., Ishii A., Suzuki T., Inoue Y., Yamakawa K., Beydoun A., Nasreddine W., Khoueiry Zgheib N., Tumiene B., Utkus A., Sadleir L.G., King C., Caglayan S.H., Arslan M., Yapici Z., Topaloglu P., Kara B., Yis U., Turkdogan D., Gundogdu-Eken A., Bebek N., Tsai M.-H., Ho C.-J., Lin C.-H., Lin K.-L., Chou I.-J., Poduri A., Shiedley B.R., Shain C., Noebels J.L., Goldman A., Busch R.M., Jehi L., Najm I.M., Ferguson L., Khoury J., Glauser T.A., Clark P.O., Buono R.J., Ferraro T.N., Sperling M.R., Lo W., Privitera M., French J.A., Schachter S., Kuzniecky R.I., Devinsky O., Hegde M., Greenberg D.A., Ellis C.A., Goldberg E., Helbig K.L., Cosico M., Vaidiswaran P., Fitch E., Berkovic S.F., Lerche H., Lowenstein D.H., Goldstein D.B., Epi25 Collaborative, Institut de Neurosciences des Systèmes (INS), and Aix Marseille Université (AMU)-Institut National de la Santé et de la Recherche Médicale (INSERM)

Subjects

0301 basic medicine, focal epilepsy, Whole Exome Sequencing, Cohort Studies, Epilepsy, 0302 clinical medicine, Genetic Marker, Missense mutation, Exome, whole-exome sequencing, generalized epilepsy, ComputingMilieux_MISCELLANEOUS, Genetics (clinical), Exome sequencing, seizures, Genetics, ClinVar, Phenotype, epileptic encephalopathy, Epi25, intolerance, Case-Control Studie, Human, Genetic Markers, seizure, Disease Association, Biology, Article, 03 medical and health sciences, Exome Sequencing, medicine, Humans, Genetic Predisposition to Disease, Genetic Testing, Generalized epilepsy, Gene, Louvain, [SCCO.NEUR]Cognitive science/Neuroscience, Correction, Genetic Variation, medicine.disease, epilepsy, Human genetics, 030104 developmental biology, Case-Control Studies, Human medicine, Cohort Studie, Genetic generalized epilepsy, 030217 neurology & neurosurgery

Abstract

Summary Both mild and severe epilepsies are influenced by variants in the same genes, yet an explanation for the resulting phenotypic variation is unknown. As part of the ongoing Epi25 Collaboration, we performed a whole-exome sequencing analysis of 13,487 epilepsy-affected individuals and 15,678 control individuals. While prior Epi25 studies focused on gene-based collapsing analyses, we asked how the pattern of variation within genes differs by epilepsy type. Specifically, we compared the genetic architectures of severe developmental and epileptic encephalopathies (DEEs) and two generally less severe epilepsies, genetic generalized epilepsy and non-acquired focal epilepsy (NAFE). Our gene-based rare variant collapsing analysis used geographic ancestry-based clustering that included broader ancestries than previously possible and revealed novel associations. Using the missense intolerance ratio (MTR), we found that variants in DEE-affected individuals are in significantly more intolerant genic sub-regions than those in NAFE-affected individuals. Only previously reported pathogenic variants absent in available genomic datasets showed a significant burden in epilepsy-affected individuals compared with control individuals, and the ultra-rare pathogenic variants associated with DEE were located in more intolerant genic sub-regions than variants associated with non-DEE epilepsies. MTR filtering improved the yield of ultra-rare pathogenic variants in affected individuals compared with control individuals. Finally, analysis of variants in genes without a disease association revealed a significant burden of loss-of-function variants in the genes most intolerant to such variation, indicating additional epilepsy-risk genes yet to be discovered. Taken together, our study suggests that genic and sub-genic intolerance are critical characteristics for interpreting the effects of variation in genes that influence epilepsy.

Published

2021

46. Ultra-Rare Genetic Variation in the Epilepsies: A Whole-Exome Sequencing Study of 17,606 Individuals

Author

Yen-Chen Anne Feng, Daniel P. Howrigan, Liam E. Abbott, Katherine Tashman, Felecia Cerrato, Tarjinder Singh, Henrike Heyne, Andrea Byrnes, Claire Churchhouse, Nick Watts, Matthew Solomonson, Dennis Lal, Erin L. Heinzen, Ryan S. Dhindsa, Kate E. Stanley, Gianpiero L. Cavalleri, Hakon Hakonarson, Ingo Helbig, Roland Krause, Patrick May, Sarah Weckhuysen, Slavé Petrovski, Sitharthan Kamalakaran, Sanjay M. Sisodiya, Patrick Cossette, Chris Cotsapas, Peter De Jonghe, Tracy Dixon-Salazar, Renzo Guerrini, Patrick Kwan, Anthony G. Marson, Randy Stewart, Chantal Depondt, Dennis J. Dlugos, Ingrid E. Scheffer, Pasquale Striano, Catharine Freyer, Kevin McKenna, Brigid M. Regan, Susannah T. Bellows, Costin Leu, Caitlin A. Bennett, Esther M.C. Johns, Alexandra Macdonald, Hannah Shilling, Rosemary Burgess, Dorien Weckhuysen, Melanie Bahlo, Terence J. O’Brien, Marian Todaro, Hannah Stamberger, Danielle M. Andrade, Tara R. Sadoway, Kelly Mo, Heinz Krestel, Sabina Gallati, Savvas S. Papacostas, Ioanna Kousiappa, George A. Tanteles, Katalin Štěrbová, Markéta Vlčková, Lucie Sedláčková, Petra Laššuthová, Karl Martin Klein, Felix Rosenow, Philipp S. Reif, Susanne Knake, Wolfram S. Kunz, Gábor Zsurka, Christian E. Elger, Jürgen Bauer, Michael Rademacher, Manuela Pendziwiat, Hiltrud Muhle, Annika Rademacher, Andreas van Baalen, Sarah von Spiczak, Ulrich Stephani, Zaid Afawi, Amos D. Korczyn, Moien Kanaan, Christina Canavati, Gerhard Kurlemann, Karen Müller-Schlüter, Gerhard Kluger, Martin Häusler, Ilan Blatt, Johannes R. Lemke, Ilona Krey, Yvonne G. Weber, Stefan Wolking, Felicitas Becker, Christian Hengsbach, Sarah Rau, Ana F. Maisch, Bernhard J. Steinhoff, Andreas Schulze-Bonhage, Susanne Schubert-Bast, Herbert Schreiber, Ingo Borggräfe, Christoph J. Schankin, Thomas Mayer, Rudolf Korinthenberg, Knut Brockmann, Dieter Dennig, Rene Madeleyn, Reetta Kälviäinen, Pia Auvinen, Anni Saarela, Tarja Linnankivi, Anna-Elina Lehesjoki, Mark I. Rees, Seo-Kyung Chung, William O. Pickrell, Robert Powell, Natascha Schneider, Simona Balestrini, Sara Zagaglia, Vera Braatz, Michael R. Johnson, Pauls Auce, Graeme J. Sills, Larry W. Baum, Pak C. Sham, Stacey S. Cherny, Colin H.T. Lui, Nina Barišić, Norman Delanty, Colin P. Doherty, Arif Shukralla, Mark McCormack, Hany El-Naggar, Laura Canafoglia, Silvana Franceschetti, Barbara Castellotti, Tiziana Granata, Federico Zara, Michele Iacomino, Francesca Madia, Maria Stella Vari, Maria Margherita Mancardi, Vincenzo Salpietro, Francesca Bisulli, Paolo Tinuper, Laura Licchetta, Tommaso Pippucci, Carlotta Stipa, Raffaella Minardi, Antonio Gambardella, Angelo Labate, Grazia Annesi, Lorella Manna, Monica Gagliardi, Elena Parrini, Davide Mei, Annalisa Vetro, Claudia Bianchini, Martino Montomoli, Viola Doccini, Carla Marini, Toshimitsu Suzuki, Yushi Inoue, Kazuhiro Yamakawa, Birute Tumiene, Lynette G. Sadleir, Chontelle King, Emily Mountier, S. Hande Caglayan, Mutluay Arslan, Zuhal Yapıcı, Uluc Yis, Pınar Topaloglu, Bulent Kara, Dilsad Turkdogan, Aslı Gundogdu-Eken, Nerses Bebek, Sibel Uğur-İşeri, Betül Baykan, Barış Salman, Garen Haryanyan, Emrah Yücesan, Yeşim Kesim, Çiğdem Özkara, Annapurna Poduri, Beth R. Shiedley, Catherine Shain, Russell J. Buono, Thomas N. Ferraro, Michael R. Sperling, Warren Lo, Michael Privitera, Jacqueline A. French, Steven Schachter, Ruben I. Kuzniecky, Orrin Devinsky, Manu Hegde, Pouya Khankhanian, Katherine L. Helbig, Colin A. Ellis, Gianfranco Spalletta, Fabrizio Piras, Federica Piras, Tommaso Gili, Valentina Ciullo, Andreas Reif, Andrew McQuillin, Nick Bass, Andrew McIntosh, Douglas Blackwood, Mandy Johnstone, Aarno Palotie, Michele T. Pato, Carlos N. Pato, Evelyn J. Bromet, Celia Barreto Carvalho, Eric D. Achtyes, Maria Helena Azevedo, Roman Kotov, Douglas S. Lehrer, Dolores Malaspina, Stephen R. Marder, Helena Medeiros, Christopher P. Morley, Diana O. Perkins, Janet L. Sobell, Peter F. Buckley, Fabio Macciardi, Mark H. Rapaport, James A. Knowles, Ayman H. Fanous, Steven A. McCarroll, Namrata Gupta, Stacey B. Gabriel, Mark J. Daly, Eric S. Lander, Daniel H. Lowenstein, David B. Goldstein, Holger Lerche, Samuel F. Berkovic, Benjamin M. Neale, Wellcome Trust, Department of Health, Institute of Neurology, UCL, Imperial College Healthcare NHS Trust- BRC Funding, Commission of the European Communities, Medical Research Council (MRC), Feng Y.-C.A., Howrigan D.P., Abbott L.E., Tashman K., Cerrato F., Singh T., Heyne H., Byrnes A., Churchhouse C., Watts N., Solomonson M., Lal D., Heinzen E.L., Dhindsa R.S., Stanley K.E., Cavalleri G.L., Hakonarson H., Helbig I., Krause R., May P., Weckhuysen S., Petrovski S., Kamalakaran S., Sisodiya S.M., Cossette P., Cotsapas C., De Jonghe P., Dixon-Salazar T., Guerrini R., Kwan P., Marson A.G., Stewart R., Depondt C., Dlugos D.J., Scheffer I.E., Striano P., Freyer C., McKenna K., Regan B.M., Bellows S.T., Leu C., Bennett C.A., Johns E.M.C., Macdonald A., Shilling H., Burgess R., Weckhuysen D., Bahlo M., O'Brien T.J., Todaro M., Stamberger H., Andrade D.M., Sadoway T.R., Mo K., Krestel H., Gallati S., Papacostas S.S., Kousiappa I., Tanteles G.A., Sterbova K., Vlckova M., Sedlackova L., Lassuthova P., Klein K.M., Rosenow F., Reif P.S., Knake S., Kunz W.S., Zsurka G., Elger C.E., Bauer J., Rademacher M., Pendziwiat M., Muhle H., Rademacher A., van Baalen A., von Spiczak S., Stephani U., Afawi Z., Korczyn A.D., Kanaan M., Canavati C., Kurlemann G., Muller-Schluter K., Kluger G., Hausler M., Blatt I., Lemke J.R., Krey I., Weber Y.G., Wolking S., Becker F., Hengsbach C., Rau S., Maisch A.F., Steinhoff B.J., Schulze-Bonhage A., Schubert-Bast S., Schreiber H., Borggrafe I., Schankin C.J., Mayer T., Korinthenberg R., Brockmann K., Dennig D., Madeleyn R., Kalviainen R., Auvinen P., Saarela A., Linnankivi T., Lehesjoki A.-E., Rees M.I., Chung S.-K., Pickrell W.O., Powell R., Schneider N., Balestrini S., Zagaglia S., Braatz V., Johnson M.R., Auce P., Sills G.J., Baum L.W., Sham P.C., Cherny S.S., Lui C.H.T., Barisic N., Delanty N., Doherty C.P., Shukralla A., McCormack M., El-Naggar H., Canafoglia L., Franceschetti S., Castellotti B., Granata T., Zara F., Iacomino M., Madia F., Vari M.S., Mancardi M.M., Salpietro V., Bisulli F., Tinuper P., Licchetta L., Pippucci T., Stipa C., Minardi R., Gambardella A., Labate A., Annesi G., Manna L., Gagliardi M., Parrini E., Mei D., Vetro A., Bianchini C., Montomoli M., Doccini V., Marini C., Suzuki T., Inoue Y., Yamakawa K., Tumiene B., Sadleir L.G., King C., Mountier E., Caglayan S.H., Arslan M., Yapici Z., Yis U., Topaloglu P., Kara B., Turkdogan D., Gundogdu-Eken A., Bebek N., Ugur-Iseri S., Baykan B., Salman B., Haryanyan G., Yucesan E., Kesim Y., Ozkara C., Poduri A., Shiedley B.R., Shain C., Buono R.J., Ferraro T.N., Sperling M.R., Lo W., Privitera M., French J.A., Schachter S., Kuzniecky R.I., Devinsky O., Hegde M., Khankhanian P., Helbig K.L., Ellis C.A., Spalletta G., Piras F., Gili T., Ciullo V., Reif A., McQuillin A., Bass N., McIntosh A., Blackwood D., Johnstone M., Palotie A., Pato M.T., Pato C.N., Bromet E.J., Carvalho C.B., Achtyes E.D., Azevedo M.H., Kotov R., Lehrer D.S., Malaspina D., Marder S.R., Medeiros H., Morley C.P., Perkins D.O., Sobell J.L., Buckley P.F., Macciardi F., Rapaport M.H., Knowles J.A., Fanous A.H., McCarroll S.A., Gupta N., Gabriel S.B., Daly M.J., Lander E.S., Lowenstein D.H., Goldstein D.B., Lerche H., Berkovic S.F., Neale B.M., Epi25 Collaborative, YÜCESAN, EMRAH, Institute for Molecular Medicine Finland, Children's Hospital, HUS Children and Adolescents, Department of Medical and Clinical Genetics, University Management, Centre of Excellence in Complex Disease Genetics, Aarno Palotie / Principal Investigator, and Genomics of Neurological and Neuropsychiatric Disorders

Subjects

s.berkovic@unimelb.edu.au [Epi25 Collaborative. Electronic address], 0301 basic medicine, GAMMA-2-SUBUNIT, burden analysi, DNA Mutational Analysis, PROTEIN, Neurodegenerative, VARIANTS, SUSCEPTIBILITY, Medical and Health Sciences, Epilepsy, 0302 clinical medicine, 2.1 Biological and endogenous factors, EPIDEMIOLOGY, Missense mutation, Exome, Aetiology, Genetics (clinical), Exome sequencing, 11 Medical and Health Sciences, seizures, GABRG2, Genetics, Genetics & Heredity, 0303 health sciences, biology, COMMON EPILEPSIES, 1184 Genetics, developmental biology, physiology, sequencing, Biological Sciences, Epi25 Collaborative, Phenotype, GENOME, epileptic encephalopathy, burden analysis, Neurological, Biotechnology, Genetic Markers, seizure, EEF1A2, Burden analysis, epilepsy, exome, Article, 03 medical and health sciences, Clinical Research, Exome Sequencing, Genetic variation, medicine, Humans, Genetic Predisposition to Disease, Gene, EPILEPTIC SEIZURES, METAANALYSIS, 030304 developmental biology, Human Genome, Neurosciences, Genetic Variation, 06 Biological Sciences, medicine.disease, Brain Disorders, 030104 developmental biology, Genetic marker, DE-NOVO MUTATIONS, Case-Control Studies, biology.protein, 3111 Biomedicine, Human medicine, 030217 neurology & neurosurgery

Abstract

Sequencing-based studies have identified novel risk genes for rare, severe epilepsies and revealed a role of rare deleterious variation in common epilepsies. To identify the shared and distinct ultra-rare genetic risk factors for rare and common epilepsies, we performed a whole-exome sequencing (WES) analysis of 9,170 epilepsy-affected individuals and 8,364 controls of European ancestry. We focused on three phenotypic groups; the rare but severe developmental and epileptic encephalopathies (DEE), and the commoner phenotypes of genetic generalized epilepsy (GGE) and non-acquired focal epilepsy (NAFE). We observed that compared to controls, individuals with any type of epilepsy carried an excess of ultra-rare, deleterious variants in constrained genes and in genes previously associated with epilepsy, with the strongest enrichment seen in DEE and the least in NAFE. Moreover, we found that inhibitory GABAA receptor genes were enriched for missense variants across all three classes of epilepsy, while no enrichment was seen in excitatory receptor genes. The larger gene groups for the GABAergic pathway or cation channels also showed a significant mutational burden in DEE and GGE. Although no single gene surpassed exome-wide significance among individuals with GGE or NAFE, highly constrained genes and genes encoding ion channels were among the top associations, including CACNA1G, EEF1A2, and GABRG2 for GGE and LGI1, TRIM3, and GABRG2 for NAFE. Our study confirms a convergence in the genetics of common and rare epilepsies associated with ultra-rare coding variation and highlights a ubiquitous role for GABAergic inhibition in epilepsy etiology in the largest epilepsy WES study to date.

Published

2019

47. Deletions or duplications in KCNQ2 can cause benign familial neonatal seizures

Author

John C. Mulley, Ingrid E. Scheffer, Samuel F. Berkovic, Sara Kivity, Zaid Afawi, Sameer M. Zuberi, Rachel Straussberg, Sarah E. Heron, Bronwyn E. Grinton, Kathleen Cox, Heron, Sarah Elizabeth, Cox, Kay Lorraine, Grinton, Bronwyn, Zuberi, S, Kivity, Sara, Afawi, Z, Straussberg, R, Berkovic, Sam, Scheffer, Ingrid, and Mulley, John

Subjects

Adult, Male, DNA Mutational Analysis, Clinical Sciences, Biology, medicine.disease_cause, Polymerase Chain Reaction, Paediatrics and Reproductive Medicine, Exon, Gene Duplication, Gene duplication, Genetics, medicine, Humans, KCNQ2 Potassium Channel, Benign familial neonatal seizures, Multiplex ligation-dependent probe amplification, Genetics (clinical), Mutation, Epilepsy, Splice site mutation, Breakpoint, Infant, Newborn, Infant, Exons, Sequence Analysis, DNA, Nucleic acid amplification technique, Middle Aged, medicine.disease, Epilepsy, Benign Neonatal, Pedigree, Phenotype, Child, Preschool, Female, Nucleic Acid Amplification Techniques, Letter to JMG, Gene Deletion

Abstract

BACKGROUND: Benign familial neonatal seizures are most often caused by mutations in the voltage-gated potassium channel subunit gene KCNQ2. More than 60 mutations have been described in BFNS families, approximately half of which lead to protein truncation. The hypothesis of this study was that deletion or duplication of >or=1 exons of KCNQ2 could cause BFNS in cases without coding or splicing mutations. METHODS: Multiplex ligation-dependent probe amplification (MLPA) was used to test a group of 21 unrelated patients with clinical features consistent with either BFNS, benign familial neonatal-infantile seizures or sporadic neonatal seizures, for exonic deletions and duplications. RESULTS: Three deletions and one duplication mutation were identified in four familial cases and cascade testing of their available family members showed that the mutations segregated with the phenotype in each family. The junction fragment for one of the deletions was amplified by PCR and sequenced to characterise the breakpoint and verify that a deletion had occurred. CONCLUSIONS: Submicroscopic deletions or duplications of KCNQ2 are seen in a significant proportion of BFNS families: four of nine (44%) cases previously testing negative for coding or splice site mutation by sequencing KCNQ2 and KCNQ3. MLPA is an efficient second-tier testing strategy for KCNQ2 to identify pathogenic intragenic mutations not detectable by conventional DNA sequencing methods.

Published

2007

48. A recurrent de novo mutation in KCNC1 causes progressive myoclonus epilepsy

Author

Steven Petrou, Aarno Palotie, Danielle M. Andrade, Marta A. Bayly, Laura Licchetta, Ingrid E. Scheffer, Rikke S. Møller, Frederick Andermann, Laura Canafoglia, Arielle Crespel, Silvana Franceschetti, Veronica Saletti, Michael Duchowny, Michael S. Hildebrand, Ebba Lohmann, Antonio Gambardella, Eva Andermann, Chiara Criscuolo, Salla Markkinen, Bernt A. Engelsen, Cigdem Ozkara, Meral Topçu, Adeel Ahmad, Edoardo Ferlazzo, Holger Lerche, João Massano, Edith Said, Mary D. King, Paolo Tinuper, Alessandro Filla, Mikko Muona, Samuel F. Berkovic, Betül Baykan, Alberto J. Espay, Karen Oliver, Matthias Lindenau, Michael Privitera, Zaid Afawi, Tarja Joensuu, Leanne M. Dibbens, Bruria Ben-Zeev, Snezana Maljevic, Patrizia Riguzzi, Kaitlin E. Samocha, Birgit Kauffmann, Mark J. Daly, Roberto Michelucci, Rachel Straussberg, Sarah E. Heron, Anna-Elina Lehesjoki, Jamil Ahmad, Muona, Mikko, Berkovic, Samuel F, Dibbens, Leanne M, Oliver, Karen L, Bayly, Marta A, Heron, Sarah E, Lehesjoki, Anna-Elina, Muona, M., Berkovic, S.F., Dibbens, L.M., Oliver, K.L., Maljevic, S., Bayly, M.A., Joensuu, T., Canafoglia, L., Franceschetti, S., Michelucci, R., Markkinen, S., Heron, S.E., Hildebrand, M.S., Andermann, E., Andermann, F., Gambardella, A., Tinuper, P., Licchetta, L., Scheffer, I.E., Criscuolo, C., Filla, A., Ferlazzo, E., Ahmad, J., Ahmad, A., Baykan, B., Said, E., Topcu, M., Riguzzi, P., King, M.D., Ozkara, C., Andrade, D.M., Engelsen, B.A., Crespel, A., Lindenau, M., Lohmann, E., Saletti, V., Massano, J., Privitera, M., Espay, A.J., Kauffmann, B., Duchowny, M., Moller, R.S., Straussberg, R., Afawi, Z., Ben-Zeev, B., Samocha, K.E., Daly, M.J., Petrou, S., Lerche, H., Palotie, A., Lehesjoki, A.-E., Çocuk Sağlığı ve Hastalıkları, Maljevic, Snezana, Joensuu, Tarja, Canafoglia, Laura, Franceschetti, Silvana, Michelucci, Roberto, Markkinen, Salla, Hildebrand, Michael S, Andermann, Eva, Andermann, Frederick, Gambardella, Antonio, Tinuper, Paolo, Licchetta, Laura, Scheffer, Ingrid E, Criscuolo, Chiara, Filla, Alessandro, Ferlazzo, Edoardo, Ahmad, Jamil, Ahmad, Adeel, Baykan, Betul, Said, Edith, Topcu, Meral, Riguzzi, Patrizia, King, Mary D, Ozkara, Cigdem, Andrade, Danielle M, Engelsen, Bernt A, Crespel, Arielle, Lindenau, Matthia, Lohmann, Ebba, Saletti, Veronica, Massano, João, Privitera, Michael, Espay, Alberto J, Kauffmann, Birgit, Duchowny, Michael, Møller, Rikke S, Straussberg, Rachel, Afawi, Zaid, Ben Zeev, Bruria, Samocha, Kaitlin E, Daly, Mark J, Petrou, Steven, Lerche, Holger, Palotie, Aarno, and Lehesjoki, Anna Elina

Subjects

Male, Protein Conformation, PRNP protein, human, SACS protein, human, medicine.disease_cause, genetics [Carrier Proteins], Epilepsy, 0302 clinical medicine, genetics [Heat-Shock Proteins], Missense mutation, Exome, Conserved Sequence, Heat-Shock Proteins, Genes, Dominant, Genetics & Heredity, Genetics, 0303 health sciences, Mutation, GTPase-Activating Proteins, Heat-Shock Protein, genetics [Myoclonic Epilepsies, Progressive], KCNC1 protein, human, 3. Good health, Pedigree, Shaw Potassium Channels, Prion, Female, medicine.symptom, Human, Ataxia, Prions, Molecular Sequence Data, Mutation, Missense, Nerve Tissue Proteins, Progressive myoclonus epilepsy, Biology, Article, Prion Proteins, 03 medical and health sciences, Species Specificity, physiology [Shaw Potassium Channels], ddc:570, medicine, Animals, Humans, Point Mutation, Shaw Potassium Channel, Amino Acid Sequence, 030304 developmental biology, genetics [Shaw Potassium Channels], Base Sequence, Sequence Homology, Amino Acid, Animal, genetics [Prions], Point mutation, Membrane Proteins, medicine.disease, Myoclonic Epilepsies, Progressive, Molecular biology, SHAKER K+ CHANNEL DNA-SEQUENCING DATA ATAXIA TYPE 13 POTASSIUM CHANNEL S4 SEGMENT CYSTATIN-B DISEASE FREQUENCY FRAMEWORK ONSET, Amino Acid Substitution, KCNC1, epilepsy, TBC1D24 protein, human, mutation, Carrier Protein, Carrier Proteins, Myoclonus, Sequence Alignment, 030217 neurology & neurosurgery

Abstract

Progressive myoclonus epilepsies (PMEs) are a group of rare, inherited disorders manifesting with action myoclonus, tonic-clonic seizures and ataxia. We sequenced the exomes of 84 unrelated individuals with PME of unknown cause and molecularly solved 26 cases (31 %). Remarkably, a recurrent de novo mutation, c. 959G>A (p.Arg320His), in KCNC1 was identified as a new major cause for PME. Eleven unrelated exome-sequenced (13%) and two affected individuals in a secondary cohort (7%) had this mutation. KCNC1 encodes KV3.1, a subunit of the KV3 voltage-gated potassium ion channels, which are major determinants of high-frequency neuronal firing. Functional analysis of the Arg320His mutant channel showed a dominant-negative loss-of-function effect. Ten cases had pathogenic mutations in known PME-associated genes (NEU1, NHLRC1, AFG3L2, EPM2A, CLN6 and SERPINI1). Identification of mutations in PRNP, SACS and TBC1D24 expand their phenotypic spectra to PME. These findings provide insights into the molecular genetic basis of PME and show the role of de novo mutations in this disease entity. Refereed/Peer-reviewed

Published

2015

49. Missense mutations in the sodium-gated potassium channel gene KCNT1 cause severe autosomal dominant nocturnal frontal lobe epilepsy

Author

Laura Licchetta, Ingrid E. Scheffer, Zaid Afawi, Steven Petrou, Katherine R. Smith, Esther Kahana, Lino Nobili, Karen Oliver, Melanie Bahlo, Amos D. Korczyn, Samuel F. Berkovic, Sarah E. Heron, Leanne M. Dibbens, Giuseppe Plazzi, Aziz Mazarib, Heron, Sarah E, Smith, Katherine R, Bahlo, Melanie, Nobili, Lino, Kahana, Esther, Licchetta, Laura, Oliver, Karen L, Mazarib, Aziz, Afawi, Zaid, Korczyn, Amos, Plazzi, Giuseppe, Petrou, Steven, Berkovic, Samuel F, Scheffer, Ingrid E, Dibbens, Leanne M, Heron S.E., Smith K.R., Bahlo M., Nobili L., Kahana E., Licchetta L., Oliver K.L., Mazarib A., Afawi Z., Korczyn A., Plazzi G., Petrou S., Berkovic S.F., Scheffer I.E., and Dibbens L.M.

Subjects

missense, medicine.medical_specialty, sequence analysis, KCNT1, Epilepsy, Frontal Lobe, Mutation, Missense, Autosomal dominant nocturnal frontal lobe epilepsy, sodium-gated potassium channel, autosomal dominant nocturnal frontal lobe epilepsy, Biology, medicine.disease_cause, Epilepsy, Internal medicine, Genetics, medicine, Missense mutation, Humans, Exome, humans, intermediate-conductance calcium-activated potassium channels, Mutation, pedigree, DNA, Sequence Analysis, DNA, frontal lobe, medicine.disease, Intermediate-Conductance Calcium-Activated Potassium Channels, DEPDC5, potassium channel KCNT1, Frontal Lobe, Pedigree, Potassium channel complex, Endocrinology, Frontal lobe, epilepsy, Missense, mutation, Sequence Analysis, exome

Abstract

We performed genomic mapping of a family with autosomal dominant nocturnal frontal lobe epilepsy (ADNFLE) and intellectual and psychiatric problems, identifying a disease-associated region on chromosome 9q34.3. Whole-exome sequencing identified a mutation in KCNT1, encoding a sodium-gated potassium channel subunit. KCNT1 mutations were identified in two additional families and a sporadic case with severe ADNFLE and psychiatric features. These findings implicate the sodium-gated potassium channel complex in ADNFLE and, more broadly, in the pathogenesis of focal epilepsies. Refereed/Peer-reviewed

Published

2012

50. Exome sequencing of 20,979 individuals with epilepsy reveals shared and distinct ultra-rare genetic risk across disorder subtypes.

Author

Chen S, Abou-Khalil BW, Afawi Z, Ali QZ, Amadori E, Anderson A, Anderson J, Andrade DM, Annesi G, Arslan M, Auce P, Bahlo M, Baker MD, Balagura G, Balestrini S, Banks E, Barba C, Barboza K, Bartolomei F, Bass N, Baum LW, Baumgartner TH, Baykan B, Bebek N, Becker F, Bennett CA, Beydoun A, Bianchini C, Bisulli F, Blackwood D, Blatt I, Borggräfe I, Bosselmann C, Braatz V, Brand H, Brockmann K, Buono RJ, Busch RM, Caglayan SH, Canafoglia L, Canavati C, Castellotti B, Cavalleri GL, Cerrato F, Chassoux F, Cherian C, Cherny SS, Cheung CL, Chou IJ, Chung SK, Churchhouse C, Ciullo V, Clark PO, Cole AJ, Cosico M, Cossette P, Cotsapas C, Cusick C, Daly MJ, Davis LK, Jonghe P, Delanty N, Dennig D, Depondt C, Derambure P, Devinsky O, Di Vito L, Dickerson F, Dlugos DJ, Doccini V, Doherty CP, El-Naggar H, Ellis CA, Epstein L, Evans M, Faucon A, Feng YA, Ferguson L, Ferraro TN, Da Silva IF, Ferri L, Feucht M, Fields MC, Fitzgerald M, Fonferko-Shadrach B, Fortunato F, Franceschetti S, French JA, Freri E, Fu JM, Gabriel S, Gagliardi M, Gambardella A, Gauthier L, Giangregorio T, Gili T, Glauser TA, Goldberg E, Goldman A, Goldstein DB, Granata T, Grant R, Greenberg DA, Guerrini R, Gundogdu-Eken A, Gupta N, Haas K, Hakonarson H, Haryanyan G, Häusler M, Hegde M, Heinzen EL, Helbig I, Hengsbach C, Heyne H, Hirose S, Hirsch E, Ho CJ, Hoeper O, Howrigan DP, Hucks D, Hung PC, Iacomino M, Inoue Y, Inuzuka LM, Ishii A, Jehi L, Johnson MR, Johnstone M, Kälviäinen R, Kanaan M, Kara B, Kariuki SM, Kegele J, Kesim Y, Khoueiry-Zgheib N, Khoury J, King C, Klein KM, Kluger G, Knake S, Kok F, Korczyn AD, Korinthenberg R, Koupparis A, Kousiappa I, Krause R, Krenn M, Krestel H, Krey I, Kunz WS, Kurlemann G, Kuzniecky RI, Kwan P, La Vega-Talbott M, Labate A, Lacey A, Lal D, Laššuthová P, Lauxmann S, Lawthom C, Leech SL, Lehesjoki AE, Lemke JR, Lerche H, Lesca G, Leu C, Lewin N, Lewis-Smith D, Li GH, Liao C, Licchetta L, Lin CH, Lin KL, Linnankivi T, Lo W, Lowenstein DH, Lowther C, Lubbers L, Lui CHT, Macedo-Souza LI, Madeleyn R, Madia F, Magri S, Maillard L, Marcuse L, Marques P, Marson AG, Matthews AG, May P, Mayer T, McArdle W, McCarroll SM, McGoldrick P, McGraw CM, McIntosh A, McQuillan A, Meador KJ, Mei D, Michel V, Millichap JJ, Minardi R, Montomoli M, Mostacci B, Muccioli L, Muhle H, Müller-Schlüter K, Najm IM, Nasreddine W, Neaves S, Neubauer BA, Newton CRJC, Noebels JL, Northstone K, Novod S, O'Brien TJ, Owusu-Agyei S, Özkara Ç, Palotie A, Papacostas SS, Parrini E, Pato C, Pato M, Pendziwiat M, Pennell PB, Petrovski S, Pickrell WO, Pinsky R, Pinto D, Pippucci T, Piras F, Piras F, Poduri A, Pondrelli F, Posthuma D, Powell RHW, Privitera M, Rademacher A, Ragona F, Ramirez-Hamouz B, Rau S, Raynes HR, Rees MI, Regan BM, Reif A, Reinthaler E, Rheims S, Ring SM, Riva A, Rojas E, Rosenow F, Ryvlin P, Saarela A, Sadleir LG, Salman B, Salmon A, Salpietro V, Sammarra I, Scala M, Schachter S, Schaller A, Schankin CJ, Scheffer IE, Schneider N, Schubert-Bast S, Schulze-Bonhage A, Scudieri P, Sedláčková L, Shain C, Sham PC, Shiedley BR, Siena SA, Sills GJ, Sisodiya SM, Smoller JW, Solomonson M, Spalletta G, Sparks KR, Sperling MR, Stamberger H, Steinhoff BJ, Stephani U, Štěrbová K, Stewart WC, Stipa C, Striano P, Strzelczyk A, Surges R, Suzuki T, Talarico M, Talkowski ME, Taneja RS, Tanteles GA, Timonen O, Timpson NJ, Tinuper P, Todaro M, Topaloglu P, Tsai MH, Tumiene B, Turkdogan D, Uğur-İşeri S, Utkus A, Vaidiswaran P, Valton L, van Baalen A, Vari MS, Vetro A, Vlčková M, von Brauchitsch S, von Spiczak S, Wagner RG, Watts N, Weber YG, Weckhuysen S, Widdess-Walsh P, Wiebe S, Wolf SM, Wolff M, Wolking S, Wong I, von Wrede R, Wu D, Yamakawa K, Yapıcı Z, Yis U, Yolken R, Yücesan E, Zagaglia S, Zahnert F, Zara F, Zimprich F, Zizovic M, Zsurka G, Neale BM, and Berkovic SF

Abstract

Identifying genetic risk factors for highly heterogeneous disorders like epilepsy remains challenging. Here, we present the largest whole-exome sequencing study of epilepsy to date, with >54,000 human exomes, comprising 20,979 deeply phenotyped patients from multiple genetic ancestry groups with diverse epilepsy subtypes and 33,444 controls, to investigate rare variants that confer disease risk. These analyses implicate seven individual genes, three gene sets, and four copy number variants at exome-wide significance. Genes encoding ion channels show strong association with multiple epilepsy subtypes, including epileptic encephalopathies, generalized and focal epilepsies, while most other gene discoveries are subtype-specific, highlighting distinct genetic contributions to different epilepsies. Combining results from rare single nucleotide/short indel-, copy number-, and common variants, we offer an expanded view of the genetic architecture of epilepsy, with growing evidence of convergence among different genetic risk loci on the same genes. Top candidate genes are enriched for roles in synaptic transmission and neuronal excitability, particularly postnatally and in the neocortex. We also identify shared rare variant risk between epilepsy and other neurodevelopmental disorders. Our data can be accessed via an interactive browser, hopefully facilitating diagnostic efforts and accelerating the development of follow-up studies., Competing Interests: Competing Interests B.M.N is a member of the scientific advisory board at Deep Genomics and Neumora. No other authors have competing interests to declare

Published

2024