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The molecular appearance of native TRPM7 channel complexes identified by high-resolution proteomics

Astrid Kollewe, Vladimir Chubanov, Fong Tsuen Tseung, Leonor Correia, Eva Schmidt, Anna Rössig, Susanna Zierler, Alexander Haupt, Catrin Swantje Müller, Wolfgang Bildl, Uwe Schulte, Annette Nicke, Bernd Fakler, Thomas Gudermann

2021eLife47 citationsDOIOpen Access PDF

Abstract

The transient receptor potential melastatin-subfamily member 7 (TRPM7) is a ubiquitously expressed membrane protein consisting of ion channel and protein kinase domains. TRPM7 plays a fundamental role in the cellular uptake of divalent cations such as Zn 2+ , Mg 2+ , and Ca 2+ , and thus shapes cellular excitability, plasticity, and metabolic activity. The molecular appearance and operation of TRPM7 channels in native tissues have remained unresolved. Here, we investigated the subunit composition of endogenous TRPM7 channels in rodent brain by multi-epitope affinity purification and high-resolution quantitative mass spectrometry (MS) analysis. We found that native TRPM7 channels are high-molecular-weight multi-protein complexes that contain the putative metal transporter proteins CNNM1-4 and a small G-protein ADP-ribosylation factor-like protein 15 (ARL15). Heterologous reconstitution experiments confirmed the formation of TRPM7/CNNM/ARL15 ternary complexes and indicated that complex formation effectively and specifically impacts TRPM7 activity. These results open up new avenues towards a mechanistic understanding of the cellular regulation and function of TRPM7 channels.

Topics & Concepts

TRPM7Protein subunitChemistryTransient receptor potential channelDivalentBiophysicsIon channelMembrane proteinTRPC1ProteomicsHeterologousPlasma protein bindingCell biologyFunction (biology)Protein–protein interactionTernary complexBiochemistryTransport proteinEndogenyBiologyMagnesium in Health and DiseaseIon Channels and ReceptorsTrace Elements in Health
The molecular appearance of native TRPM7 channel complexes identified by high-resolution proteomics | Litcius