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Conformational rearrangements in the second voltage sensor domain switch PIP2- and voltage-gating modes in two-pore channels.

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Two-pore channels (TPCs) are activated by phosphatidylinositol bisphosphate (PIP2) binding to domain I and/or by voltage sensing in domain II (DII). Little is known about how these two stimuli are… Click to show full abstract

Two-pore channels (TPCs) are activated by phosphatidylinositol bisphosphate (PIP2) binding to domain I and/or by voltage sensing in domain II (DII). Little is known about how these two stimuli are integrated, and how each TPC subtype achieves its unique preference. Here, we show that distinct conformations of DII-S4 in the voltage-sensor domain determine the two gating modes. DII-S4 adopts an intermediate conformation, and forced stabilization in this conformation was found to result in a high PIP2-dependence in primarily voltage-dependent TPC3. In TPC2, which is PIP2-gated and nonvoltage-dependent, a stabilized intermediate conformation does not affect the PIP2-gated currents. These results indicate that the intermediate state represents the PIP2-gating mode, which is distinct from the voltage-gating mode in TPCs. We also found in TPC2 that the tricyclic antidepressant desipramine induces DII-S4-based voltage dependence and that naringenin, a flavonoid, biases the mode preference from PIP2-gating to desipramine-induced voltage gating. Taken together, our study on TPCs revealed an unprecedented mode-switching mechanism involving conformational changes in DII-S4, and its active role in integrating voltage and PIP2 stimuli.

Keywords: pore channels; voltage; domain; two pore; voltage gating; pip2

Journal Title: Proceedings of the National Academy of Sciences of the United States of America
Year Published: 2023

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