Abdominal symptoms in patients with long QT syndrome and a "gain of function" mutation in the Nav1.5 sodium channel

被引:0
|
作者
Braak, Breg
Klooker, Tamira K.
Scholvinck, Dirk
Hofman, Nynke
Wilde, Arthur
Boeckxstaens, Guy E.
机构
来源
GASTROENTEROLOGY | 2008年 / 134卷 / 04期
关键词
D O I
暂无
中图分类号
R57 [消化系及腹部疾病];
学科分类号
摘要
引用
收藏
页码:A683 / A683
页数:1
相关论文
共 50 条
  • [41] Myotonic dystrophy type 1 mimics and exacerbates Brugada phenotype induced by Nav1.5 sodium channel loss-of-function mutation
    Pambrun, Thomas
    Mercier, Aurelie
    Chatelier, Aurelien
    Patri, Sylvie
    Schott, Jean-Jacques
    Le Scouarnec, Solena
    Chahine, Mohamed
    Degand, Bruno
    Bois, Patrick
    HEART RHYTHM, 2014, 11 (08) : 1393 - 1400
  • [42] Lack of influence of sex hormones on Brugada syndrome-associated mutant Nav1.5 sodium channel
    Yang, Guodong
    Liu, Jing
    Wang, Ya
    Du, Yuan
    Ma, Aiqun
    Wang, Tingzhong
    JOURNAL OF ELECTROCARDIOLOGY, 2019, 52 : 82 - 87
  • [43] A Novel Mechanism of Regulation of Sodium Channel Nav1.5 Expression in Hypoxic Cardiomyocytes
    Wang, Ning
    Liu, Yining
    Li, Jiamin
    Yang, Zhenyu
    Cai, Benzhi
    Xu, Haodong
    FASEB JOURNAL, 2019, 33
  • [44] A mutation in telethonin in a patient with intestinal pseudoobstruction alters Nav1.5 channel kinetics
    Mazzone, Amelia
    Strege, Peter R.
    Tester, David J.
    Faulkner, Georgine
    Degiorgio, Roberto
    Makielski, Jonathan
    Stanghellini, Vincenzo
    Gibbons, Simon J.
    Ackerman, Michael J.
    Farrugia, Gianrico
    GASTROENTEROLOGY, 2007, 132 (04) : A460 - A460
  • [45] A novel SCN5A mutation associated with the linker between III and IV domains of Nav1.5 in a neonate with fatal long QT syndrome
    Yamamura, Kenichiro
    Muneuchi, Jun
    Uike, Kiyoshi
    Ikeda, Kazuyuki
    Inoue, Hirosuke
    Takahata, Yasushi
    Shiokawa, Yuichi
    Yoshikane, Yukako
    Makiyama, Takeru
    Horie, Minoru
    Hara, Toshiro
    INTERNATIONAL JOURNAL OF CARDIOLOGY, 2010, 145 (01) : 61 - 64
  • [46] The small GTPase RhoA regulates the expression and function of the sodium channel Nav1.5 in breast cancer cells
    Dulong, C.
    Fang, Y. J.
    Gest, C.
    Zhou, M. H.
    Patte-Mensah, C.
    Mensah-Nyagan, A. G.
    Vannier, J. P.
    Lu, H.
    Soria, C.
    Cazin, L.
    Mei, Y. A.
    Varin, R.
    Li, H.
    INTERNATIONAL JOURNAL OF ONCOLOGY, 2014, 44 (02) : 539 - 547
  • [47] Substrate Stiffness Alters the Kinetics of Sodium Channel Nav1.5 and Depolarization of Cardiomyocytes
    Xi, Yutao T.
    Su, Sheng-An T.
    Sampaio, Luiz C.
    So, Shui Ping T.
    Sun, Junping T.
    Cheng, Jie T.
    Xiang, Meixiang
    Taylor, Doris A.
    CIRCULATION, 2018, 138
  • [48] Reduced expression of cardiac sodium channel Nav1.5 promotes premature senescence
    Mushtaq, I.
    Kao, Y. H.
    Chen, Y. J.
    FEBS OPEN BIO, 2024, 14 : 494 - 495
  • [49] Astrocytes within multiple sclerosis lesions upregulate sodium channel Nav1.5
    Black, Joel A.
    Newcombe, Jia
    Waxman, Stephen G.
    BRAIN, 2010, 133 : 835 - 846
  • [50] Trifluoperazine blocks the human cardiac sodium channel, Nav1.5, independent of calmodulin
    Kim, Dong-Hyun
    Lee, Su-Jin
    Hahn, Sang June
    Choi, Jin-Sung
    BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS, 2016, 479 (03) : 584 - 589
12345