摘要:Changes in cell function occur by specific patterns of intracellular Ca 2+ , activating Ca 2+ -sensitive proteins. The anoctamin (TMEM16) protein family has Ca 2+ -dependent ion channel activity, which provides transmembrane ion transport, and/or Ca 2+ -dependent phosphatidyl-scramblase activity. Using amino acid sequence analysis combined with measurements of ion channel function, we clarified the so far unknown Ano4 function as Ca 2+ -dependent, non-selective monovalent cation channel; heterologous Ano4 expression in HEK293 cells elicits Ca 2+ activated conductance with weak selectivity of K + > Na + > Li + . Endogenously expressed Ca 2+ -dependent cation channels in the retinal pigment epithelium were identified as Ano4 by KO mouse-derived primary RPE cells and siRNA against Ano4. Exchanging a negatively charged amino acid in the putative pore region (AA702-855) into a positive one (E775K) turns Ano4-elicited currents into Cl - currents evidencing its importance for ion selectivity. The molecular identification of Ano4 as a Ca 2+ -activated cation channel advances the understanding of its role in Ca 2+ signaling.