Abstract
Transient receptor potential (TRP) proteins form cation-conducting ion channels with currently 28 known genes encoding TRP channel monomers in mammals. These monomers are thought to coassemble to form homo- or heterotetrameric channels, but the signals governing their assembly are unknown. Within the TRPV subgroup, TRPV5 and TRPV6 show exclusive calcium selectivity and play an important role in calcium uptake. To identify signals that mediate assembly of functional TRPV6, we screened domains for self-association using co-immunoprecipitation, sucrose gradient centrifugation, bacterial two-hybrid assays, and patch clamp analysis. Of the two identified interaction domains within the N-terminal region, we showed that the first domain encompassing the third ankyrin repeat is the stringent requirement for physical assembly of TRPV6 subunits and when transferred to an unrelated protein enables its interaction with TRPV6. Deletion of this repeat or mutation of critical residues within this repeat rendered nonfunctional channels that do not co-immunoprecipitate or form tetramers. Suppression of dominant-negative inhibitors of TRPV6-specific currents was achieved by deletion of ankyrin (ANK) 3. We propose that the third ANK repeat initiates a molecular zippering process that proceeds past the fifth ANK repeat and creates an intracellular anchor that is necessary for functional subunit assembly.
Highlights
Transient receptor potential (TRP)1 channels have evolved as a family of ion channels defined by their relatedness to their seminal member, the Drosophila TRP channel
Identification of N-terminal Interaction Domains—To identify regions within the TRPV6 protein that are required for homomultimeric subunit assembly, we investigated proteinprotein interactions using bacterial two-hybrid interaction screens and co-immunoprecipitation experiments
Our results demonstrated that one specific N-terminal ANK repeat is critical in allowing tetrameric subunit assembly of functional TRPV6 channels
Summary
Transient receptor potential (TRP)1 channels have evolved as a family of ion channels defined by their relatedness to their seminal member, the Drosophila TRP channel. The interacting region contains the third ANK repeat, and we could show that specific amino acids in the second helical segment of this ANK repeat are necessary for assembly of functional TRPV6 channels.
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