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cell, article, cai, body, intracellular, migration, lamellipodium, access, privacy, cookies, content, cells, gradient, information, publish, search, distribution, migrating, transformed, data, log, journal, research, pflügers, schwab, finsterwalder, kersting, mdckf, casensitive, channel, channels, influx, open, discover, springer, optional, analysis, personal, parties, policy, find, track, archiv, renal, epithelial, cite, franz, ulrich, timm, danker,

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month download article/chapter intracellular ca2+ distribution intracellular ca2+ concentration privacy choices/manage cookies full article pdf entire cell surface related subjects european economic area scope submit manuscript ca2+ influx occurring conditions privacy policy fluorescent dye fura-2/ local superfusion technique accepting optional cookies locally superfusing mn2+ migration experiments slowed migration main content log migrating mdck ca2+-sensitive journal finder publish dimensional lamellipodium structure pflügers arch 434 horizontal gradient exists cell body cell poles article log uneven distribution polarized distribution check access instant access information article cite + channel access article schwab ca2+ influx privacy policy + channels personal data books a cells depends optional cookies manage preferences locally superfusing data protection essential cookies cookies skip subscription content similar content horizontal polarization

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         headline:Intracellular Ca2+ distribution in migrating transformed renal epithelial cells
         description: Migration of transformed Madin-Darby canine kidney (MDCK-F) cells depends on the polarized activity of a Ca2+-sensitive K+ channel. We tested whether a gradient of intracellular Ca2+ concentration ([Ca2+]i) underlies the horizontal polarization of K+ channel activity. [Ca2+]i was measured with the fluorescent dye fura-2/AM. Spatial analysis of [Ca2+]i indicated that a horizontal gradient exists, with [Ca2+]i being higher in the cell body than in the lamellipodium. Resting and maximal levels during oscillations of [Ca2+]i in the cell body were found to be 135 ± 34 and 405 ± 59 nmol/l, respectively, whereas they were 79 ± 18 and 307 ± 102 nmol/l in the lamellipodium. This gradient can partially explain the preferential activation of K+ channels in the plasma membrane of the cell body. We applied a local superfusion technique during migration experiments and measurements of [Ca2+]i to test whether its maintenance is due to an uneven distribution of Ca2+ influx into migrating MDCK-F cells. Locally superfusing the cell body of migrating MDCK-F cells with La3+ alone or together with charybdotoxin, a specific blocker of Ca2+-sensitive K+ channels, slowed migration to 47 ± 10% and 9 ± 5% of control, respectively. Local blockade of Ca2+ influx into the cell body and the lamellipodium with La3+ was followed by a decrease of [Ca2+]i at both cell poles. This points to Ca2+ influx occurring over the entire cell surface. This conclusion was confirmed by locally superfusing Mn2+ over the cell body and the lamellipodium. Fura-2 fluorescence was quenched in both areas, the decrease of fluorescence being two to three times faster in the cell body than in the lamellipodium. However, this difference is insufficient to account for the observed gradient of [Ca2+]i. We hypothesize that the polarized distribution of intracellular Ca2+ stores contributes significantly to the generation of a gradient of [Ca2+]i.
         datePublished:
         dateModified:
         pageStart:70
         pageEnd:76
         sameAs:https://doi.org/10.1007/s004240050364
         keywords:
            Key words Migration
            Ca2+
            Transformed MDCK cell
            K+ channel
            Human Physiology
            Molecular Medicine
            Neurosciences
            Cell Biology
            Receptors
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            issn:
               1432-2013
               0031-6768
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      headline:Intracellular Ca2+ distribution in migrating transformed renal epithelial cells
      description: Migration of transformed Madin-Darby canine kidney (MDCK-F) cells depends on the polarized activity of a Ca2+-sensitive K+ channel. We tested whether a gradient of intracellular Ca2+ concentration ([Ca2+]i) underlies the horizontal polarization of K+ channel activity. [Ca2+]i was measured with the fluorescent dye fura-2/AM. Spatial analysis of [Ca2+]i indicated that a horizontal gradient exists, with [Ca2+]i being higher in the cell body than in the lamellipodium. Resting and maximal levels during oscillations of [Ca2+]i in the cell body were found to be 135 ± 34 and 405 ± 59 nmol/l, respectively, whereas they were 79 ± 18 and 307 ± 102 nmol/l in the lamellipodium. This gradient can partially explain the preferential activation of K+ channels in the plasma membrane of the cell body. We applied a local superfusion technique during migration experiments and measurements of [Ca2+]i to test whether its maintenance is due to an uneven distribution of Ca2+ influx into migrating MDCK-F cells. Locally superfusing the cell body of migrating MDCK-F cells with La3+ alone or together with charybdotoxin, a specific blocker of Ca2+-sensitive K+ channels, slowed migration to 47 ± 10% and 9 ± 5% of control, respectively. Local blockade of Ca2+ influx into the cell body and the lamellipodium with La3+ was followed by a decrease of [Ca2+]i at both cell poles. This points to Ca2+ influx occurring over the entire cell surface. This conclusion was confirmed by locally superfusing Mn2+ over the cell body and the lamellipodium. Fura-2 fluorescence was quenched in both areas, the decrease of fluorescence being two to three times faster in the cell body than in the lamellipodium. However, this difference is insufficient to account for the observed gradient of [Ca2+]i. We hypothesize that the polarized distribution of intracellular Ca2+ stores contributes significantly to the generation of a gradient of [Ca2+]i.
      datePublished:
      dateModified:
      pageStart:70
      pageEnd:76
      sameAs:https://doi.org/10.1007/s004240050364
      keywords:
         Key words Migration
         Ca2+
         Transformed MDCK cell
         K+ channel
         Human Physiology
         Molecular Medicine
         Neurosciences
         Cell Biology
         Receptors
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                     type:PostalAddress
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            name:Franz Finsterwalder
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                     type:PostalAddress
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            name:Timm Danker
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