Simultaneous Binding of the N- and C-terminal Cytoplasmic Domains of Aquaporin 4 to Calmodulin May Contribute to Vesicular Trafficking

Abstract

ABSTRACTAquaporin 4 (AQP4) is a water transporting, transmembrane channel protein that has important regulatory roles in maintaining cellular water homeostasis. Several other AQP proteins exhibit calmodulin (CaM)-binding properties, and CaM has recently been implicated in the cell surface localization of AQP4 that occurs in response to osmotically-driven changes in cell swelling in the central nervous system. The objective of the present study was to assess the CaM-binding properties of AQP4 in detail. Inspection of AQP4 revealed two putative CaM-binding domains (CBDs) in the cytoplasmic N- and C-terminal regions, respectively. The Ca2+-dependent CaM-binding properties of synthetic and recombinant AQP4 CBD peptides were assessed using fluorescence spectroscopy, isothermal titration calorimetry, and two-dimensional 1H, 15N-HSQC NMR with 15N-labeled CaM. The N-terminal CBD peptide of AQP4 predominantly interacted with the N-lobe of CaM with a 1:1 binding ratio and a Kd of 3.4 μM. CaM bound two C-terminal AQP4 peptides with interactions observed for both the C- and N-lobes of CaM (Kd1: 3.6 μM, Kd2: 113.6 μM, respectively). A recombinant AQP4 protein domain (rAQP4ct, containing the entire cytosolic C-terminal domain sequence) bound CaM in a 1:1 binding mode with a Kd of 6.1 μM. A ternary bridging complex could be generated with the N- and C-lobes of CaM interacting simultaneously with the N- and C-terminal CBD peptides. These data suggest that this unique adapter protein binding mode of CaM and AQP4 may be an important regulatory mechanism for the vesicular trafficking of AQP4.