Electrical responses of the marine ciliate Euplotes vannus (Hypotrichia) to mechanical stimulation at the posterior cell end
Autor: | Volker Furchbrich, Thomas Krüppel, Wolfgang Lueken |
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Rok vydání: | 1993 |
Předmět: |
Physiology
Biophysics Receptor potential Euplotes Membrane Potentials Extracellular Animals Repolarization Reversal potential Egtazic Acid Cells Cultured Ion channel Membrane potential Dose-Response Relationship Drug Chemistry Cell Membrane Sodium Cell Biology Quaternary Ammonium Compounds Electrophysiology Biochemistry Calcium Stress Mechanical Mechanoreceptors Intracellular |
Zdroj: | The Journal of Membrane Biology. 135 |
ISSN: | 1432-1424 0022-2631 |
DOI: | 10.1007/bf00211097 |
Popis: | Electrical responses upon mechanostimulation at the posterior cell end were investigated in the marine hypotrichous ciliate Euplotes vannus. A new mechanostimulator was developed to mimic stimuli that are identical with those involved in cell-cell collisions. The receptor potential hyperpolarized by 18–35 mV within 12–25 msec, reached a peak value of -62 mV with a delay of 4–9 msec after membrane deformation, and was deactivated after 50–70 msec. Cirri were stimulated to beat accelerated backward. The corresponding receptor current exerted a similar time course with a peak of 2.4 nA. The shift of the reversal potential by 57.6 mV at a tenfold increase of [K+]0 identifies potassium ions as current carriers within the development of the receptor potential. An intracellular K concentration of 355 mmol/liter was calculated for cells in a medium that was composed similar to sea-water. The mechanically activated potassium current was totally inhibited by extracellular TEA and intracellular Cs+, and partially inhibited by extracellular 4-AP. The total inhibition of the current by injected EGTA points to a Ca dependence of the posterior mechanosensitivity. It was confirmed by the increase of the peak current amplitude with rising [Ca2+]0. Sodium presumably repolarizes the receptor potential because the repolarization was delayed and after-depolarizations were eliminated in media without sodium. Since deciliation did not affect mechano-sensitivity, the corresponding ion channels reside within the soma membrane. |
Databáze: | OpenAIRE |
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