Anoctamin‐like protein 1 regulates repolarization in Paramecium behavioral responses

Paramecium exhibits responsive behavior to environmental changes, moving either closer to or further away from stimuli. Electrophysiological experiments have revealed that these behavioral responses are controlled by membrane potentials. Anoctamin, a Ca2+‐activated Cl− channel, is involved in the re...

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Veröffentlicht in:The Journal of eukaryotic microbiology 2024-07, Vol.71 (4), p.e13030-n/a
Hauptverfasser: Sakoshita, Kana, Aratani, Shotaro, Kameda, Nana, Takebe, Ryo, Tominaga, Takashi, Ishida, Masaki, Hori, Manabu
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Sprache:eng
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Zusammenfassung:Paramecium exhibits responsive behavior to environmental changes, moving either closer to or further away from stimuli. Electrophysiological experiments have revealed that these behavioral responses are controlled by membrane potentials. Anoctamin, a Ca2+‐activated Cl− channel, is involved in the regulation of membrane potential in mammals. However, it remains uncertain whether Cl− channels like anoctamin regulate Paramecium behavior. Herein, replacement of external Cl− ions with acetate ion and application of Cl− channel blocker niflumic acid (NFA, 0.1 μM) increased spontaneous avoiding reactions (sARs). Hence, we hypothesized that anoctamin is involved in the stabilization of membrane potential fluctuation. Paramecium cells in which the anoctamin‐like protein 1 gene was knocked down displayed frequent sARs in the culture medium without external stimulation. Treatment of anoctamin‐like protein 1‐knockdown cells with the Ca2+ chelator BAPTA or Ca‐channel blocker nicardipine reversed the increase in sARs. Electrophysiological experiments revealed extension of membrane depolarization when positive currents were applied to anoctamin‐like protein 1‐knockdown cells. We concluded that anoctamin‐like protein 1 works as a Cl‐channel and stabilizes the membrane potential oscillation, reducing sARs.
ISSN:1066-5234
1550-7408
1550-7408
DOI:10.1111/jeu.13030