Search Results - "KAISTHA, Anuradha"

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  1. 1
    Efficacy and limitations of senolysis in atherosclerosis

    Efficacy and limitations of senolysis in atherosclerosis by Garrido, Abel Martin, Kaistha, Anuradha, Uryga, Anna K, Oc, Sebnem, Foote, Kirsty, Shah, Aarti, Finigan, Alison, Figg, Nichola, Dobnikar, Lina, Jørgensen, Helle, Bennett, Martin

    Published in Cardiovascular research (22-06-2022)
    “…Abstract Aims Traditional markers of cell senescence including p16, Lamin B1, and senescence-associated beta galactosidase (SAβG) suggest very high frequencies…”
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  2. 2
    Arterial response to shear stress critically depends on endothelial TRPV4 expression

    Arterial response to shear stress critically depends on endothelial TRPV4 expression by Hartmannsgruber, Veronika, Heyken, Willm-Thomas, Kacik, Michael, Kaistha, Anuradha, Grgic, Ivica, Harteneck, Christian, Liedtke, Wolfgang, Hoyer, Joachim, Köhler, Ralf

    Published in PloS one (05-09-2007)
    “…In blood vessels, the endothelium is a crucial signal transduction interface in control of vascular tone and blood pressure to ensure energy and oxygen supply…”
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  3. 3
    Genetic Deficit of SK3 and IK1 Channels Disrupts the Endothelium-Derived Hyperpolarizing Factor Vasodilator Pathway and Causes Hypertension

    Genetic Deficit of SK3 and IK1 Channels Disrupts the Endothelium-Derived Hyperpolarizing Factor Vasodilator Pathway and Causes Hypertension by BRÄHLER, Sebastian, KAISTHA, Anuradha, BOND, Chris T, ADELMAN, John P, WULFF, Heike, DE WIT, Cor, HOYER, Joachim, KÖHLER, Ralf, SCHMIDT, Volker J, WÖLFLE, Stephanie E, BUSCH, Christoph, KAISTHA, Brajesh P, KACIK, Michael, HASENAU, Anna-Lena, GRGIC, Ivica, HAN SI

    Published in Circulation (New York, N.Y.) (05-05-2009)
    “…It has been proposed that activation of endothelial SK3 (K(Ca)2.3) and IK1 (K(Ca)3.1) K+ channels plays a role in the arteriolar dilation attributed to an…”
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  4. 4
    Renal fibrosis is attenuated by targeted disruption of KCa3.1 potassium channels

    Renal fibrosis is attenuated by targeted disruption of KCa3.1 potassium channels by Grgic, Ivica, Kiss, Eva, Kaistha, Brajesh P, Busch, Christoph, Kloss, Michael, Sautter, Julia, Müller, Anja, Kaistha, Anuradha, Schmidt, Claudia, Raman, Girija, Wulff, Heike, Strutz, Frank, Gröne, Hermann-Josef, Köhler, Ralf, Hoyer, Joachim

    “…Proliferation of interstitial fibroblasts is a hallmark of progressive renal fibrosis commonly resulting in chronic kidney failure. The…”
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  5. 5
    Evidence for functional and dynamic microcompartmentation of Cav-1/TRPV4/KCa in caveolae of endothelial cells

    Evidence for functional and dynamic microcompartmentation of Cav-1/TRPV4/KCa in caveolae of endothelial cells by Goedicke-Fritz, Sybelle, Kaistha, Anuradha, Kacik, Michael, Markert, Sabrina, Hofmeister, Andreas, Busch, Christoph, Bänfer, Sebastian, Jacob, Ralf, Grgic, Ivica, Hoyer, Joachim

    Published in European journal of cell biology (01-07-2015)
    “…Ca2+-activated K+ channels (KCa) play a pivotal role in the endothelium-dependent hyperpolarization and regulation of vascular tone and blood pressure. For…”
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  6. 6
    Disruption of the Gardos channel (KCa3.1) in mice causes subtle erythrocyte macrocytosis and progressive splenomegaly

    Disruption of the Gardos channel (KCa3.1) in mice causes subtle erythrocyte macrocytosis and progressive splenomegaly by Grgic, Ivica, Kaistha, Brajesh P., Paschen, Steffen, Kaistha, Anuradha, Busch, Christoph, Si, Han, Köhler, Kernt, Elsässer, Hans-Peter, Hoyer, Joachim, Köhler, Ralf

    Published in Pflügers Archiv (01-06-2009)
    “…Gardos channel, the erythrocyte Ca 2+ -activated K + channel (K Ca 3.1), is considered a major regulator of red blood cell (RBC) volume by mediating efflux of…”
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  7. 7
    Renal Fibrosis Is Attenuated by Targeted Disruption of$K_{Ca} 3.1$Potassium Channels

    Renal Fibrosis Is Attenuated by Targeted Disruption of$K_{Ca} 3.1$Potassium Channels by Grgic, Ivica, Kiss, Eva, Kaistha, Brajesh P., Busch, Christoph, Kloss, Michael, Sautter, Julia, Müller, Anja, Kaistha, Anuradha, Schmidt, Claudia, Raman, Girija, Wulff, Heike, Strutz, Frank, Gröne, Hermann-Josef, Köhler, Ralf, Hoyer, Joachim, Snyder, Solomon H.

    “…Proliferation of interstitial fibroblasts is a hallmark of progressive renal fibrosis commonly resulting in chronic kidney failure. The…”
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  8. 8
    Functional and molecular characterization of vascular TREK‐1 channel and its role in EDHF‐mediated vasodilation and hypertension

    Functional and molecular characterization of vascular TREK‐1 channel and its role in EDHF‐mediated vasodilation and hypertension by Kaistha, Brajesh Pratap, Busch, Christoph, Kaistha, Anuradha, Kacik, Michael, Köhler, Ralf, Hoyer, Joachim

    Published in The FASEB journal (01-04-2010)
    “…Potassium channels are crucial effector proteins in endothelial function. Here we investigated functions of the TREK‐1 in vascular endothelium and analysed its…”
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  9. 9
    Endothelial KCa ion channels: their compartmentation in caveolae and relevance to cardiovascular pathologies

    Endothelial KCa ion channels: their compartmentation in caveolae and relevance to cardiovascular pathologies by Kaistha, Anuradha, Brähler, Sebastian, Kaistha, Brajesh Pratap, Wulff, Heike, Köhler, Ralf, Hoyer, Joachim

    Published in The FASEB journal (01-04-2010)
    “…Ca2+‐activated K+‐channels KCa2.3 and KCa3.1 are expressed in caveolae rich endothelium and their activation plays an important role in EDHF‐dilations. Yet,…”
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  10. 10
    Genetic loss of KCa3.1 causes subtle erythrocyte macrocytosis and progressive splenomegaly

    Genetic loss of KCa3.1 causes subtle erythrocyte macrocytosis and progressive splenomegaly by Kaistha, Brajesh Pratap, Grgic, Ivica, Kaistha, Anuradha, Hoyer, Joachim, Köhler, Ralf

    Published in The FASEB journal (01-04-2009)
    “…Abstract only…”
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  11. 11
    Evidence for functional and dynamic microcompartmentation of Cav-1/TRPV4/K(Ca) in caveolae of endothelial cells

    Evidence for functional and dynamic microcompartmentation of Cav-1/TRPV4/K(Ca) in caveolae of endothelial cells by Goedicke-Fritz, Sybelle, Kaistha, Anuradha, Kacik, Michael, Markert, Sabrina, Hofmeister, Andreas, Busch, Christoph, Bänfer, Sebastian, Jacob, Ralf, Grgic, Ivica, Hoyer, Joachim

    Published in European journal of cell biology (01-07-2015)
    “…Ca(2+)-activated K(+) channels (KCa) play a pivotal role in the endothelium-dependent hyperpolarization and regulation of vascular tone and blood pressure. For…”
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  12. 12
    Genetic deficit of SK3 and IK1 channels abolishes EDHF‐type vasodilation and elevates blood pressure

    Genetic deficit of SK3 and IK1 channels abolishes EDHF‐type vasodilation and elevates blood pressure by Koehler, Ralf, Brähler, Sebastian, Kaistha, Anuradha, Woelfle, Stephanie, Kaistha, Brajesh P, de Wit, Cor, Wulff, Heike, Adelman, John P., Hoyer, Joachim

    Published in The FASEB journal (01-04-2009)
    “…Abstract only…”
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  13. 13
    Renal fibrosis is attenuated by targeted disruption of K^sub Ca^3.1 potassium channels

    Renal fibrosis is attenuated by targeted disruption of K^sub Ca^3.1 potassium channels by Grgic, Ivica, Kiss, Eva, Kaistha, Brajesh P, Busch, Christoph, Kloss, Michael, Sautter, Julia, Müller, Anja, Kaistha, Anuradha, Schmidt, Claudia, Raman, Girija, Wulff, Heike, Strutz, Frank, Gröne, Hermann-Josef, Köhler, Ralf, Hoyer, Joachim

    “…Proliferation of interstitial fibroblasts is a hallmark of progressive renal fibrosis commonly resulting in chronic kidney failure. The…”
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  14. 14
    Renal fibrosis is attenuated by targeted disruption of K Ca 3.1 potassium channels

    Renal fibrosis is attenuated by targeted disruption of K Ca 3.1 potassium channels by Grgic, Ivica, Kiss, Eva, Kaistha, Brajesh P., Busch, Christoph, Kloss, Michael, Sautter, Julia, Müller, Anja, Kaistha, Anuradha, Schmidt, Claudia, Raman, Girija, Wulff, Heike, Strutz, Frank, Gröne, Hermann-Josef, Köhler, Ralf, Hoyer, Joachim

    “…Proliferation of interstitial fibroblasts is a hallmark of progressive renal fibrosis commonly resulting in chronic kidney failure. The…”
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  15. 15
    Renal fibrosis is attenuated by targeted disruption of K sub(Ca)3.1 potassium channels

    Renal fibrosis is attenuated by targeted disruption of K sub(Ca)3.1 potassium channels by Grgic, Ivica, Kiss, Eva, Kaistha, Brajesh P, Busch, Christoph, Kloss, Michael, Sautter, Julia, M1/4ller, Anja, Kaistha, Anuradha, Schmidt, Claudia, Raman, Girija, Wulff, Heike, Strutz, Frank, Grne, Hermann-Josef, Khler, Ralf, Hoyer, Joachim

    “…Proliferation of interstitial fibroblasts is a hallmark of progressive renal fibrosis commonly resulting in chronic kidney failure. The…”
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