Loss-of-Function and Gain-of-Function Mutations in KCNQ5 Cause Intellectual Disability or Epileptic Encephalopathy

被引:80
|
作者
Lehman, Anna [1 ]
Thouta, Samrat [2 ]
Mancini, Grazia M. S. [3 ]
Naidu, Sakkubai [4 ]
van Slegtenhorst, Marjon [3 ]
McWalter, Kirsty [5 ]
Person, Richard [5 ]
Mwenifumbo, Jill [1 ]
Salvarinova, Ramona [6 ]
Guella, Ilaria [8 ]
McKenzie, Marna B. [8 ]
Datta, Anita [9 ]
Connolly, Mary B. [9 ]
Kalkhoran, Somayeh Mojard [2 ]
Poburko, Damon [2 ]
Friedman, Jan M. [1 ]
Farrer, Matthew J. [8 ]
Demos, Michelle [9 ]
Desai, Sonal [4 ]
Claydon, Thomas [2 ]
机构
[1] Univ British Columbia, Dept Med Genet, Vancouver, BC V6H 3N1, Canada
[2] Simon Fraser Univ, Dept Biomed Physiol & Kinesiol, Burnaby, BC V5A 1S6, Canada
[3] Erasmus Univ, Med Ctr, Dept Clin Genet, NL-3000 CA Rotterdam, Netherlands
[4] Kennedy Krieger Inst, Dept Neurogenet, Baltimore, MD 21211 USA
[5] GeneDx, Gaithersburg, MD 20877 USA
[6] Univ British Columbia, Div Biochem Dis, Dept Pediat, Vancouver, BC V6H 3N1, Canada
[7] Univ British Columbia, Vancouver, BC V6H 3N1, Canada
[8] Univ British Columbia, Ctr Appl Neurogenet, Vancouver, BC V6T 1Z3, Canada
[9] Univ British Columbia, Div Pediat Neurol, Dept Pediat, Vancouver, BC V6H 3N1, Canada
来源
AMERICAN JOURNAL OF HUMAN GENETICS | 2017年 / 101卷 / 01期
基金
加拿大自然科学与工程研究理事会;
关键词
POTASSIUM CHANNEL GENE; SEIZURES; CLONING;
D O I
10.1016/j.ajhg.2017.05.016
中图分类号
Q3 [遗传学];
学科分类号
071007 ; 090102 ;
摘要
KCNQ5 is a highly conserved gene encoding an important channel for neuronal function; it is widely expressed in the brain and generates M-type current. Exome sequencing identified de novo heterozygous missense mutations in four probands with intellectual disability, abnormal neurological findings, and treatment-resistant epilepsy (in two of four). Comprehensive analysis of this potassium channel for the four variants expressed in frog oocytes revealed shifts in the voltage dependence of activation, including altered activation and deactivation kinetics. Specifically, both loss-of-function and gain-of-function KCNQ5 mutations, associated with increased excitability and decreased repolarization reserve, lead to pathophysiology.
引用
收藏
页码:65 / 74
页数:10
相关论文
共 50 条
  • [1] HCN1 Gain-Of-Function Mutations - A New Cause of Epileptic Encephalopathy
    Poduri, Annapurna
    [J]. EPILEPSY CURRENTS, 2014, 14 (06) : 348 - 349
  • [2] DE NOVO LOSS- OR GAIN-OF-FUNCTION MUTATIONS IN KCNA2 CAUSE EPILEPTIC ENCEPHALOPATHY
    Syrbe, S.
    Hedrich, U.
    Riesch, E.
    Djemie, T.
    Mueller, S.
    Moller, R. S.
    Maher, B.
    Hernandez-Hernandez, L.
    Synofzik, M.
    Caglayan, H.
    Arslan, M.
    Serratosa, J.
    Nothnagel, M.
    May, P.
    Krause, R.
    Loeffler, H.
    Detert, K.
    Dorn, T.
    Vogt, H.
    Kraemer, G.
    Schoels, L.
    Mullis, P.
    Linnankivi, T.
    Lehesjoki, A. -E.
    Sterbova, K.
    Craiu, D.
    Hoffman-Zacharska, D.
    Korff, C.
    Weber, Y.
    Steinlin, M.
    Gallati, S.
    Bertsche, A.
    Bernhard, M.
    Merkenschlager, A.
    Kiess, W.
    Gonzalez, M.
    Zuechner, S.
    Palotie, A.
    Suls, A.
    De Jonghe, P.
    Helbig, I.
    Biskup, S.
    Wolff, M.
    Maljevic, S.
    Schuele, R.
    Sisodiya, S.
    Weckhuysen, S.
    Lerche, H.
    Lemke, J.
    [J]. EPILEPSIA, 2015, 56 : 77 - 77
  • [3] De novo loss- or gain-of-function mutations in KCNA2 cause epileptic encephalopathy
    Steffen Syrbe
    Ulrike B S Hedrich
    Erik Riesch
    Tania Djémié
    Stephan Müller
    Rikke S Møller
    Bridget Maher
    Laura Hernandez-Hernandez
    Matthis Synofzik
    Hande S Caglayan
    Mutluay Arslan
    José M Serratosa
    Michael Nothnagel
    Patrick May
    Roland Krause
    Heidrun Löffler
    Katja Detert
    Thomas Dorn
    Heinrich Vogt
    Günter Krämer
    Ludger Schöls
    Primus E Mullis
    Tarja Linnankivi
    Anna-Elina Lehesjoki
    Katalin Sterbova
    Dana C Craiu
    Dorota Hoffman-Zacharska
    Christian M Korff
    Yvonne G Weber
    Maja Steinlin
    Sabina Gallati
    Astrid Bertsche
    Matthias K Bernhard
    Andreas Merkenschlager
    Wieland Kiess
    Michael Gonzalez
    Stephan Züchner
    Aarno Palotie
    Arvid Suls
    Peter De Jonghe
    Ingo Helbig
    Saskia Biskup
    Markus Wolff
    Snezana Maljevic
    Rebecca Schüle
    Sanjay M Sisodiya
    Sarah Weckhuysen
    Holger Lerche
    Johannes R Lemke
    [J]. Nature Genetics, 2015, 47 : 393 - 399
  • [4] De novo loss- or gain-of-function mutations in KCNA2 cause epileptic encephalopathy
    Syrbe, Steffen
    Hedrich, Ulrike B. S.
    Riesch, Erik
    Djemie, Tania
    Mueller, Stephan
    Moller, Rikke S.
    Maher, Bridget
    Hernandez-Hernandez, Laura
    Synofzik, Matthis
    Caglayan, Hande S.
    Arslan, Mutluay
    Serratosa, Jose M.
    Nothnagel, Michael
    May, Patrick
    Krause, Roland
    Loeffler, Heidrun
    Detert, Katja
    Dorn, Thomas
    Vogt, Heinrich
    Kraemer, Guenter
    Schoels, Ludger
    Mullis, Primus E.
    Linnankivi, Tarja
    Lehesjoki, Anna-Elina
    Sterbova, Katalin
    Craiu, Dana C.
    Hoffman-Zacharska, Dorota
    Korff, Christian M.
    Weber, Yvonne G.
    Steinlin, Maja
    Gallati, Sabina
    Bertsche, Astrid
    Bernhard, Matthias K.
    Merkenschlager, Andreas
    Kiess, Wieland
    Gonzalez, Michael
    Zuechner, Stephan
    Palotie, Aarno
    Suls, Arvid
    De Jonghe, Peter
    Helbig, Ingo
    Biskup, Saskia
    Wolff, Markus
    Maljevic, Snezana
    Schule, Rebecca
    Sisodiya, Sanjay M.
    Weckhuysen, Sarah
    Lerche, Holger
    Lemke, Johannes R.
    Balling, Rudi
    [J]. NATURE GENETICS, 2015, 47 (04) : 393 - +
  • [5] NALCN channelopathies: Distinguishing gain-of-function and loss-of-function mutations
    Bend, Eric G.
    Si, Yue
    Stevenson, David A.
    Bayrak-Toydemir, Pinar
    Newcomb, Tara M.
    Jorgensen, Erik M.
    Swoboda, Kathryn J.
    [J]. NEUROLOGY, 2016, 87 (11) : 1131 - 1139
  • [6] Gain-of-Function Mutations in RARB Cause Intellectual Disability with Progressive Motor Impairment
    Srour, Myriam
    Caron, Veronique
    Pearson, Toni
    Nielsen, Sarah B.
    Levesque, Sebastien
    Delrue, Marie-Ange
    Becker, Troy A.
    Hamdan, Fadi F.
    Kibar, Zoha
    Sattler, Shannon G.
    Schneider, Michael C.
    Bitoun, Pierre
    Chassaing, Nicolas
    Rosenfeld, Jill A.
    Xia, Fan
    Desai, Sonal
    Roeder, Elizabeth
    Kimonis, Virginia
    Schneider, Adele
    Littlejohn, Rebecca Okashah
    Douzgou, Sofia
    Tremblay, Andre
    Michaud, Jacques L.
    [J]. HUMAN MUTATION, 2016, 37 (08) : 786 - 793
  • [7] Using SIFT and PolyPhen to Predict Loss-of-Function and Gain-of-Function Mutations
    Flanagan, Sarah E.
    Patch, Ann-Marie
    Ellard, Sian
    [J]. GENETIC TESTING AND MOLECULAR BIOMARKERS, 2010, 14 (04) : 533 - 537
  • [8] Analysis of sperm galactosyltransferase through gain-of-function and loss-of-function mutations
    Shur, B
    Lu, QX
    Shi, XD
    Paruchuru, K
    Miller, D
    [J]. MOLECULAR BIOLOGY OF THE CELL, 1998, 9 : 7A - 7A
  • [9] Loss-of-function and gain-of-function mutations in PPP3CA cause two distinct disorders
    Mizuguchi, Takeshi
    Nakashima, Mitsuko
    Kato, Mitsuhiro
    Okamoto, Nobuhiko
    Kurahashi, Hirokazu
    Ekhilevitch, Nina
    Shiina, Masaaki
    Nishimura, Gen
    Shibata, Takashi
    Matsuo, Muneaki
    Ikeda, Tae
    Ogata, Kazuhiro
    Tsuchida, Naomi
    Mitsuhashi, Satomi
    Miyatake, Satoko
    Takata, Atsushi
    Miyake, Noriko
    Hata, Kenichiro
    Kaname, Tadashi
    Matsubara, Yoichi
    Saitsu, Hirotomo
    Matsumoto, Naomichi
    [J]. HUMAN MOLECULAR GENETICS, 2018, 27 (08) : 1421 - 1433
  • [10] Loss-of-function variants in the KCNQ5 gene are implicated in genetic generalized epilepsies
    Krueger, Johanna
    Schubert, Julian
    Kegele, Josua
    Labalme, Audrey
    Mao, Miaomiao
    Heighway, Jacqueline
    Seebohm, Guiscard
    Yan, Pu
    Koko, Mahmoud
    Aslan-Kara, Kezban
    Caglayan, Hande
    Steinhoff, Bernhard J.
    Weber, Yvonne G.
    Keo-Kosal, Pascale
    Berkovic, Samuel F.
    Hildebrand, Michael S.
    Petrou, Steven
    Krause, Roland
    May, Patrick
    Lesca, Gaetan
    Maljevic, Snezana
    Lerche, Holger
    [J]. EBIOMEDICINE, 2022, 84
12345