Abstract
Transient receptor potential melastatin-1 (TRPM1) is essential for the light-induced depolarization of retinal ON bipolar cells. TRPM1 likely forms a multimeric channel complex, although almost nothing is known about the structure or subunit composition of channels formed by TRPM1 or any of its close relatives. Recombinant TRPM1 was robustly expressed in insect cells, but only a small fraction was localized to the plasma membrane. Similar intracellular localization was observed when TRPM1 was heterologously expressed in mammalian cells. TRPM1 was affinity-purified from Sf9 cells and complexed with amphipol, followed by detergent removal. In blue native gels and size exclusion chromatography, TRPM1 migrated with a mobility consistent with detergent- or amphipol-bound dimers. Cross-linking experiments were also consistent with a dimeric subunit stoichiometry, and cryoelectron microscopy and single particle analysis without symmetry imposition yielded a model with approximate 2-fold symmetrical features. Finally, electron microscopy of TRPM1-antibody complexes revealed a large particle that can accommodate TRPM1 and two antibody molecules. Taken together, these data indicate that purified TRPM1 is mostly dimeric. The three-dimensional structure of TRPM1 dimers is characterized by a small putative transmembrane domain and a larger domain with a hollow cavity. Blue native gels of solubilized mouse retina indicate that TRPM1 is present in two distinct complexes: one similar in size to the recombinant protein and one much larger. Because dimers are likely not functional ion channels, these results suggest that additional partner subunits participate in forming the transduction channel required for dim light vision and the ON pathway.
Highlights
Transient receptor potential melastatin-1 (TRPM1) is essential for the light response of retinal depolarizing bipolar cells
TRPM1 appears to be uniformly localized in infected cells with no obvious aggregates (Fig. 1A)
To determine whether any TRPM1 could be detected at the plasma membrane, surface-localized proteins were biotinylated in live cells followed by cell lysis and streptavidin-agarose precipitation (Fig. 1C)
Summary
TRPM1 is essential for the light response of retinal depolarizing bipolar cells. Results: Recombinant purified TRPM1 is mostly dimeric, and a low resolution cryo-EM structure is presented. Because dimers are likely not functional ion channels, these results suggest that additional partner subunits participate in forming the transduction channel required for dim light vision and the ON pathway. Postsynaptic signaling in ON bipolar cells begins with the metabotropic glutamate receptor mGluR6, which, via the heterotrimeric G protein Go, controls the open state of a non-selective cation channel [2,3,4,5,6,7,8] In the dark, this pathway is chronically activated by the constitutive release of glutamate from photoreceptor terminals, maintaining the postsynaptic transduction channel in a closed state. Highly specific TRPM1 monoclonal antibodies (mAbs) were generated and used for detection of native TRPM1-containing complexes in retina
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
