Chapter title |
Mechanical injury alters volume activated ion channels in cortical astrocytes.
|
---|---|
Chapter number | 79 |
Book title |
Brain Edema XI
|
Published in |
Acta neurochirurgica Supplement, January 2000
|
DOI | 10.1007/978-3-7091-6346-7_79 |
Pubmed ID | |
Book ISBNs |
978-3-70-917257-5, 978-3-70-916346-7
|
Authors |
Di, X, Goforth, P B, Bullock, R, Ellis, E, Satin, L, Di, X., Goforth, P. B., Bullock, R., Ellis, E., Satin, L. |
Abstract |
Although astrocytic swelling is likely to mediate brain edema and high ICP after traumatic brain injury, the mechanism is not understood. We employed whole cell patch clamp electrophysiology and a stretch injury model to understand whether volume regulating ion currents are altered following cell injury. Mixed rat astrocytes and neurons were co-cultured on deformable silastic membranes. Mild-moderate cell injury was produced using a timed pulse of pressurized air to deform the silastic substrates by 6.5 mm. Then, ion currents were recorded with patch clamp methods. Cells were held at -65 mV and were stepped to +10 mV to monitor current changes. In unstretched astrocytes, small amplitude currents were obtained under isotonic conditions. Hypotonic solution activated an outwardly-rectifying current which reversed near -40 mV. This current resembled a previously reported anion current whose activation may restore cell volume by mediating a net solute efflux. In contrast, stretch injured cells exhibited a large amplitude, nonrectifying current. This current was not due to non-specific ionic leakage, since it was fully suppressed by the cation channel blocker gadolinium. Activation of novel stretch-activated cation currents may exacerbate cell swelling in injured astrocytes. Stretch injured astrocytes thus express a dysfunctional cation current as opposed to an osmoregulatory anion current. This mechanism, if present in vivo, may contribute to the cytotoxic swelling seen after traumatic brain injury. |
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