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  1. Article: Direct mechano-stress sensitivity of TRPM7 channel.

    Numata, Tomohiro / Shimizu, Takahiro / Okada, Yasunobu

    Cellular physiology and biochemistry : international journal of experimental cellular physiology, biochemistry, and pharmacology

    2006  Volume 19, Issue 1-4, Page(s) 1–8

    Abstract: It has recently been shown that shear stress augments the heterologously expressed TRPM7 channel ... by mechano-stress in a manner independent of exocytosis-mediated incorporation of this channel ... at exploring the possibility that the heterogously expressed TRPM7 channel is activated directly by membrane ...

    Abstract It has recently been shown that shear stress augments the heterologously expressed TRPM7 channel activity by exocytosis-mediated incorporation of TRPM7 into the plasma membrane. On the other hand, our recent study has shown that the TRPM7-like channel endogenously expressed in HeLa cells is activated by membrane expansion induced by membrane stretch or osmotic cell swelling. Thus, the present study was aimed at exploring the possibility that the heterogously expressed TRPM7 channel is activated directly by membrane expansion in a manner independent of exocytosis. Here, whole-cell currents of the TRPM7 channel heterologously expressed in HEK293T cells were found to be augmented not only by perfusion of bath solution but also by osmotic swelling even under the conditions where exocytotic events can hardly take place in the cytosol dialyzed with ATP-free, Ca(2+)-free and EGTA-containing pipette solution. In addition, shear stress-induced augmentation was not affected by a blocker of vesicular protein traffic, brefeldin A. Furthermore, in cell-free patches, membrane stretch directly augmented single-channel activity of TRPM7 by increasing Po value at < or = 20 mV. We thus conclude that the TRPM7 channel can be directly activated by mechano-stress in a manner independent of exocytosis-mediated incorporation of this channel protein into the plasma membrane.
    MeSH term(s) Cell Line ; Cell Membrane/physiology ; Cell Size ; Electric Conductivity ; Exocytosis ; Humans ; Magnesium/pharmacology ; Membrane Potentials ; Protein-Serine-Threonine Kinases ; Stress, Mechanical ; TRPM Cation Channels/metabolism
    Chemical Substances TRPM Cation Channels ; Protein-Serine-Threonine Kinases (EC 2.7.11.1) ; TRPM7 protein, human (EC 2.7.11.1) ; Magnesium (I38ZP9992A)
    Language English
    Publishing date 2006-08-15
    Publishing country Germany
    Document type Journal Article ; Research Support, Non-U.S. Gov't
    ZDB-ID 1067572-3
    ISSN 1421-9778 ; 1015-8987
    ISSN (online) 1421-9778
    ISSN 1015-8987
    DOI 10.1159/000099187
    Database MEDical Literature Analysis and Retrieval System OnLINE

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  2. Article: Direct Mechano-Stress Sensitivity of TRPM7 Channel

    Numata, Tomohiro / Shimizu, Takahiro / Okada, Yasunobu

    Cellular Physiology and Biochemistry

    2007  Volume 19, Issue 1-4, Page(s) 1–8

    Abstract: It has recently been shown that shear stress augments the heterologously expressed TRPM7 channel ... Po value at ? 20mV. We thus conclude that the TRPM7 channel can be directly activated by mechano ... stress in a manner independent of exocytosis-mediated incorporation of this channel ...

    Institution Department of Cell Physiology, National Institute for Physiological Sciences, Okazaki Department of Physiological Sciences, School of Life Science, The Graduate University for Advanced Studies (Sokendai), Okazaki Japan Society for the Promotion of Science, Tokyo
    Abstract It has recently been shown that shear stress augments the heterologously expressed TRPM7 channel activity by exocytosis-mediated incorporation of TRPM7 into the plasma membrane. On the other hand, our recent study has shown that the TRPM7-like channel endogenously expressed in HeLa cells is activated by membrane expansion induced by membrane stretch or osmotic cell swelling. Thus, the present study was aimed at exploring the possibility that the heterogously expressed TRPM7 channel is activated directly by membrane expansion in a manner independent of exocytosis. Here, whole-cell currents of the TRPM7 channel heterologously expressed in HEK293T cells were found to be augmented not only by perfusion of bath solution but also by osmotic swelling even under the conditions where exocytotic events can hardly take place in the cytosol dialyzed with ATP-free, Ca2+-free and EGTA-containing pipette solution. In addition, shear stress-induced augmentation was not affected by a blocker of vesicular protein traffic, brefeldin A. Furthermore, in cell-free patches, membrane stretch directly augmented single-channel activity of TRPM7 by increasing Po value at ? 20mV. We thus conclude that the TRPM7 channel can be directly activated by mechano-stress in a manner independent of exocytosis-mediated incorporation of this channel protein into the plasma membrane.
    Language English
    Publishing date 2007-01-16
    Publisher S. Karger AG
    Publishing place Basel, Switzerland
    Document type Article
    Note Original Paper
    ZDB-ID 1067572-3
    ISSN 1421-9778 ; 1015-8987
    ISSN (online) 1421-9778
    ISSN 1015-8987
    DOI 10.1159/000099187
    Database Karger publisher's database

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    In stock of ZB MED Cologne/Königswinter

    Zs.A 3160: Show issues Location:
    Je nach Verfügbarkeit (siehe Angabe bei Bestand)
    bis Jg. 1994: Bestellungen von Artikeln über das Online-Bestellformular
    Jg. 1995 - 2021: Lesesall (2.OG)
    ab Jg. 2022: Lesesaal (EG)

    Order via subito

    This service is chargeable due to the Delivery terms set by subito. Orders including an article and supplementary material will be classified as separate orders. In these cases, fees will be demanded for each order.

  3. Article ; Online: Direct Mechano-Stress Sensitivity of TRPM7 Channel

    Numata, Tomohiro / Shimizu, Takahiro / Okada, Yasunobu

    Cellular Physiology and Biochemistry - International Journal of Experimental Cellular Physiology, Biochemistry andPharmacology

    2007  Volume 19, Issue 1-4, Page(s) 1–8

    Abstract: It has recently been shown that shear stress augments the heterologously expressed TRPM7 channel ... Po value at ? 20mV. We thus conclude that the TRPM7 channel can be directly activated by mechano ... stress in a manner independent of exocytosis-mediated incorporation of this channel ...

    Abstract It has recently been shown that shear stress augments the heterologously expressed TRPM7 channel activity by exocytosis-mediated incorporation of TRPM7 into the plasma membrane. On the other hand, our recent study has shown that the TRPM7-like channel endogenously expressed in HeLa cells is activated by membrane expansion induced by membrane stretch or osmotic cell swelling. Thus, the present study was aimed at exploring the possibility that the heterogously expressed TRPM7 channel is activated directly by membrane expansion in a manner independent of exocytosis. Here, whole-cell currents of the TRPM7 channel heterologously expressed in HEK293T cells were found to be augmented not only by perfusion of bath solution but also by osmotic swelling even under the conditions where exocytotic events can hardly take place in the cytosol dialyzed with ATP-free, Ca2+-free and EGTA-containing pipette solution. In addition, shear stress-induced augmentation was not affected by a blocker of vesicular protein traffic, brefeldin A. Furthermore, in cell-free patches, membrane stretch directly augmented single-channel activity of TRPM7 by increasing Po value at ? 20mV. We thus conclude that the TRPM7 channel can be directly activated by mechano-stress in a manner independent of exocytosis-mediated incorporation of this channel protein into the plasma membrane.
    Language English
    Publisher S. Karger AG
    Publishing place Basel
    Publishing country Switzerland
    Document type Article ; Online
    ISSN 1421-9778 ; 1015-8987 ; 1015-8987
    ISSN (online) 1421-9778
    ISSN 1015-8987
    DOI 10.1159/000099187
    Database Karger publisher's database

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    Kategorien

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    This service is chargeable due to the Delivery terms set by subito. Orders including an article and supplementary material will be classified as separate orders. In these cases, fees will be demanded for each order.

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