TRPM7 is essential for Mg2+ homeostasis in mammals

被引:0
|
作者
Lillia V. Ryazanova
Lusliany J. Rondon
Susanna Zierler
Zhixian Hu
Joanna Galli
Terry P. Yamaguchi
Andrzej Mazur
Andrea Fleig
Alexey G. Ryazanov
机构
[1] University of Medicine and Dentistry of New Jersey/R. W. Johnson Medical School,Department of Pharmacology
[2] INRA,undefined
[3] UMR 1019,undefined
[4] UNH,undefined
[5] CRNH Auvergne,undefined
[6] and Clermont Université,undefined
[7] Université d'Auvergne,undefined
[8] Unité de Nutrition Humaine,undefined
[9] BP 10448,undefined
[10] Clermont-Ferrand F-63000,undefined
[11] France.,undefined
[12] Laboratory of Cell and Molecular Signaling,undefined
[13] Queen's Center for Biomedical Research,undefined
[14] The Queen's Medical Center and John A. Burns School of Medicine,undefined
[15] University of Hawaii,undefined
[16] Faculty of Veterinary Medicine,undefined
[17] Wroclaw University of Environmental and Life Sciences,undefined
[18] Norwida 31,undefined
[19] Wrocław 50-375,undefined
[20] Poland.,undefined
[21] Cancer and Developmental Biology Laboratory,undefined
[22] Center for Cancer Research,undefined
[23] National Cancer Institute-Frederick,undefined
[24] NIH,undefined
来源
Nature Communications | / 1卷
关键词
D O I
暂无
中图分类号
学科分类号
摘要
Mg2+ is the second-most abundant cation in animal cells and is an essential cofactor in numerous enzymatic reactions. The molecular mechanisms controlling Mg2+ balance in the organism are not well understood. In this study, we report identification of TRPM7, a bifunctional protein containing a protein kinase fused to an ion channel, as a key regulator of whole body Mg2+ homeostasis in mammals. We generated TRPM7-deficient mice with the deletion of the kinase domain. Homozygous TRPM7Δkinase mice demonstrated early embryonic lethality, whereas heterozygous mice were viable, but developed signs of hypomagnesaemia and revealed a defect in intestinal Mg2+ absorption. Cells derived from heterozygous TRPM7Δkinase mice demonstrated reduced TRPM7 currents that had increased sensitivity to the inhibition by Mg2+. Embryonic stem cells lacking TRPM7 kinase domain displayed a proliferation arrest phenotype that can be rescued by Mg2+ supplementation. Our results demonstrate that TRPM7 is essential for the control of cellular and whole body Mg2+ homeostasis.
引用
收藏
相关论文
共 50 条
  • [1] TRPM7 is essential for Mg2+ homeostasis in mammals
    Ryazanova, Lillia V.
    Rondon, Lusliany J.
    Zierler, Susanna
    Hu, Zhixian
    Galli, Joanna
    Yamaguchi, Terry P.
    Mazur, Andrzej
    Fleig, Andrea
    Ryazanov, Alexey G.
    [J]. NATURE COMMUNICATIONS, 2010, 1
  • [2] Regulation of vertebrate cellular Mg2+ Homeostasis by TRPM7
    Schmitz, C
    Perraud, AL
    Johnson, CO
    Inabe, K
    Smith, MK
    Penner, R
    Kurosaki, T
    Fleig, A
    Scharenberg, AM
    [J]. CELL, 2003, 114 (02) : 191 - 200
  • [3] TRPM7, the Mg2+ Inhibited Channel and Kinase
    Bates-Withers, Chris
    Sah, Rajan
    Clapham, David E.
    [J]. TRANSIENT RECEPTOR POTENTIAL CHANNELS, 2011, 704 : 173 - 183
  • [4] Essential role of Mg2+ in mouse preimplantation embryo development revealed TRPM7
    Gupta, Neha
    Soriano-Ubeda, Cristina
    Stein, Paula
    Savy, Virginia
    Papas, Brian N.
    Ardestani, Goli
    Carvacho, Ingrid
    Alfandari, Dominique
    Williams, Carmen J.
    Fissore, Rafael A.
    [J]. CELL REPORTS, 2023, 42 (10):
  • [5] Deletion of Trpm7 Disrupts Embryonic Development and Thymopoiesis Without Altering Mg2+ Homeostasis
    Jin, Jie
    Desai, Bimal N.
    Navarro, Betsy
    Donovan, Adriana
    Andrews, Nancy C.
    Clapham, David E.
    [J]. SCIENCE, 2008, 322 (5902) : 756 - 760
  • [6] Detailed Examination of TRPM7 Channel Mg2+ Dependence
    Chokshi, Rikki
    Matsushita, Masayuki
    Kozak, J. Ashot
    [J]. BIOPHYSICAL JOURNAL, 2012, 102 (03) : 132A - 132A
  • [7] TRPM6 and TRPM7 chanzymes essential for magnesium homeostasis
    Groenestege, Wouter M. Tiel
    Hoenderop, Joost G. J.
    Bindels, Rene J. M.
    [J]. NEW PERSPECTIVES IN MAGNESIUM RESEARCH: NUTRITION AND HEALTH, 2007, : 34 - +
  • [8] Detailed examination of Mg2+ and pH sensitivity of human TRPM7 channels
    Chokshi, Rikki
    Matsushita, Masayuki
    Kozak, J. Ashot
    [J]. AMERICAN JOURNAL OF PHYSIOLOGY-CELL PHYSIOLOGY, 2012, 302 (07): : C1004 - C1011
  • [9] Defects in TRPM7 channel function deregulate thrombopoiesis through altered cellular Mg2+ homeostasis and cytoskeletal architecture
    Simon Stritt
    Paquita Nurden
    Remi Favier
    Marie Favier
    Silvia Ferioli
    Sanjeev K. Gotru
    Judith M M. van Eeuwijk
    Harald Schulze
    Alan T. Nurden
    Michele P. Lambert
    Ernest Turro
    Stephanie Burger-Stritt
    Masayuki Matsushita
    Lorenz Mittermeier
    Paola Ballerini
    Susanna Zierler
    Michael A. Laffan
    Vladimir Chubanov
    Thomas Gudermann
    Bernhard Nieswandt
    Attila Braun
    [J]. Nature Communications, 7
  • [10] Defects in TRPM7 channel function deregulate thrombopoiesis through altered cellular Mg2+ homeostasis and cytoskeletal architecture
    Stritt, Simon
    Nurden, Paquita
    Favier, Remi
    Favier, Marie
    Ferioli, Silvia
    Gotru, Sanjeev K.
    van Eeuwijk, Judith M. M.
    Schulze, Harald
    Nurden, Alan T.
    Lambert, Michele P.
    Turro, Ernest
    Burger-Stritt, Stephanie
    Matsushita, Masayuki
    Mittermeier, Lorenz
    Ballerini, Paola
    Zierler, Susanna
    Laffan, Michael A.
    Chubanov, Vladimir
    Gudermann, Thomas
    Nieswandt, Bernhard
    Braun, Attila
    [J]. NATURE COMMUNICATIONS, 2016, 7
12345