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The signaling lipid phosphatidylinositol‐3,5‐bisphosphate targets plant CLC‐a anion/H+ exchange activity
Authors:Armando Carpaneto  Anna Boccaccio  Laura Lagostena  Eleonora Di Zanni  Joachim Scholz‐Starke
Affiliation:Institute of Biophysics, Consiglio Nazionale delle Ricerche, Genova, Italy
Abstract:Phosphatidylinositol‐3,5‐bisphosphate (PI(3,5)P2) is a low‐abundance signaling lipid associated with endo‐lysosomal and vacuolar membranes in eukaryotic cells. Recent studies on Arabidopsis indicated a critical role of PI(3,5)P2 in vacuolar acidification and morphology during ABA‐induced stomatal closure, but the molecular targets in plant cells remained unknown. By using patch‐clamp recordings on Arabidopsis vacuoles, we show here that PI(3,5)P2 does not affect the activity of vacuolar H+‐pyrophosphatase or vacuolar H+‐ATPase. Instead, PI(3,5)P2 at low nanomolar concentrations inhibited an inwardly rectifying conductance, which appeared upon vacuolar acidification elicited by prolonged H+ pumping activity. We provide evidence that this novel conductance is mediated by chloride channel a (CLC‐a), a member of the anion/H+ exchanger family formerly implicated in stomatal movements in Arabidopsis. H+‐dependent currents were absent in clc‐a knock‐out vacuoles, and canonical CLC‐a‐dependent nitrate/H+ antiport was inhibited by low concentrations of PI(3,5)P2. Finally, using the pH indicator probe BCECF, we show that CLC‐a inhibition contributes to vacuolar acidification. These data provide a mechanistic explanation for the essential role of PI(3,5)P2 and advance our knowledge about the regulation of vacuolar ion transport.
Keywords:patch‐clamp  phosphoinositide  proton antiport  vacuolar acidification
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