Gottfried Schatz Research Center, Biophysics, Medical University of Graz, Graz, Austria.
Institute of Pharmacology, Medical University of Vienna, Vienna, Austria.
Nat Chem Biol. 2018 Apr;14(4):396-404. doi: 10.1038/s41589-018-0015-6. Epub 2018 Mar 19.
Transient receptor potential canonical (TRPC) channels TRPC3, TRPC6 and TRPC7 are able to sense the lipid messenger diacylglycerol (DAG). The DAG-sensing and lipid-gating processes in these ion channels are still unknown. To gain insights into the lipid-sensing principle, we generated a DAG photoswitch, OptoDArG, that enabled efficient control of TRPC3 by light. A structure-guided mutagenesis screen of the TRPC3 pore domain unveiled a single glycine residue behind the selectivity filter (G652) that is exposed to lipid through a subunit-joining fenestration. Exchange of G652 with larger residues altered the ability of TRPC3 to discriminate between different DAG molecules. Light-controlled activation-deactivation cycling of TRPC3 channels by an OptoDArG-mediated optical 'lipid clamp' identified pore domain fenestrations as pivotal elements of the channel´s lipid-sensing machinery. We provide evidence for a novel concept of lipid sensing by TRPC channels based on a lateral fenestration in the pore domain that accommodates lipid mediators to control gating.
瞬时受体电位经典型 (TRPC) 通道 TRPC3、TRPC6 和 TRPC7 能够感知脂质信使二酰基甘油 (DAG)。这些离子通道中的 DAG 感应和脂质门控过程仍不清楚。为了深入了解脂质感应原理,我们生成了一种 DAG 光开关 OptoDArG,能够有效地用光控制 TRPC3。对 TRPC3 孔域的结构指导的突变筛选揭示了选择性过滤器后面的单个甘氨酸残基(G652),该残基通过亚基连接的窗孔暴露于脂质。用较大的残基替换 G652 会改变 TRPC3 区分不同 DAG 分子的能力。通过 OptoDArG 介导的光学“脂质夹”对 TRPC3 通道的光控激活-失活循环表明,孔域窗孔是通道脂质感应机制的关键要素。我们提供了基于孔域中侧向窗孔的新型脂质感应概念的证据,该窗孔可容纳脂质介体以控制门控。