Inositol 1,3,4,5-tetrakisphosphate is essential for sustained activation of the Ca2+-dependent K+ current in single internally perfused mouse lacrimal acinar cells

Summary We have examined the effects of various inositol polyphosphates, alone and in combination, on the Ca²⁺-activated K⁺ current in internally perfused, single mouse lacrimal acinar cells. We used the patch-clamp technique for whole-cell current recording with a set-up allowing exchange of the pipette solution during individual experiments so that control and test periods could be directly compared in individual cells. Inositol 1,4,5-trisphosphate (Ins 1,4,5 P₃) (10–100 m) evoked a transient increase in the Ca²⁺-sensitive K⁺ current that was independent of the presence of Ca²⁺ in the external solution. The transient nature of the Ins 1,4,5 P₃ effect was not due to rapid metabolic breakdown, as similar responses were obtained in the presence of 5mm 2,3-diphosphoglyceric acid, that blocks the hydrolysis of Ins 1,4,5 P₃, as well as with the stable analoguedl-inositol 1,4,5-trisphosphorothioate (Ins 1,4,5 P(S)₃) (100 m). Ins 1,3,4 P₃ (50 m) had no effect, whereas 50 m Ins 2,4,5 P₃ evoked responses similar to those obtained by 10 m Ins 1,4,5 P₃. A sustained increase in Ca²⁺-dependent K⁺ current was only observed when inositol 1,3,4,5-tetrakisphosphate (Ins 1,3,4,5 P₄) (10 m) was added to the Ins 1,4,5 P₃ (10 m)-containing solution and this effect could be terminated by removal of external Ca²⁺. The effect of Ins 1,3,4,5 P₄ was specifically dependent on the presence of Ins 1,4,5 P₃ as it was not found when 10 m concentrations of Ins 1,3,4 P₃ or Ins 2,4,5 P₃ were used. Ins 2,4,5 P₃ (but not Ins 1,3,4 P₃) at the higher concentration of 50 m did, however, support the Ins 1,3,4,5 P₄-evoked sustained current activation. Ins 1,3,4 P₃ could not evoke sustained responses in combination with Ins 1,4,5 P₃ excluding the possibility that the action of Ins 1,3,4,5 P₄ could be mediated by its breakdown product Ins 1,3,4 P₃. Ins 1,3,4,5 P₄ also evoked a sustained response when added to an Ins 1,4,5 P(S)₃-containing solution. Ins 1,3,4,5,6 P₅ (50 m) did not evoke any effect when administered on top of Ins 1,4,5 P₃. In the absence of external Ca²⁺, addition of Ins 1,3,4,5 P₄ to an Ins 1,4,5 P₃-containing internal solution evoked a second transient K⁺ current activation. Readmitting external Ca²⁺ in the continued presence internally of Ins 1,4,5 P₃ and Ins 1,3,4,5 P₄ made the response reappear. We conclude that both Ins 1,4,5 P₃ and Ins 1,3,4,5 P₄ play crucial and specific roles in controlling intracellular Ca²⁺ homeostasis.