2023
DOI: 10.1038/s41467-023-38362-3
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Structural mechanisms of TRPM7 activation and inhibition

Abstract: The transient receptor potential channel TRPM7 is a master regulator of the organismal balance of divalent cations that plays an essential role in embryonic development, immune responses, cell mobility, proliferation, and differentiation. TRPM7 is implicated in neuronal and cardiovascular disorders, tumor progression and has emerged as a new drug target. Here we use cryo-EM, functional analysis, and molecular dynamics simulations to uncover two distinct structural mechanisms of TRPM7 activation by a gain-of-fu… Show more

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Cited by 31 publications
(29 citation statements)
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“…The pore radius profile of TRPM7 CCT is very similar to the ones previously obtained for TRPM7 apo , TRPM7 VER , and TRPM7 NS ( Figure 5B ), indicating that the CCT-bound structure represents the closed, non-conducting state. This pore profile is in stark contrast with the profile obtained for the open-state structures of TRPM7, activated as a result of either the introduced gain-of-function mutation N1098Q (TRPM7 N1098Q ) or binding of agonist NTB (TRPM7 NTB ), 21 where the gate region is substantially wider ( Figure 5B ). Therefore, we propose that, in analogy to VER and NS, CCT acts by allosterically stabilizing the closed state of the TRPM7 channel.…”
Section: Resultscontrasting
confidence: 75%
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“…The pore radius profile of TRPM7 CCT is very similar to the ones previously obtained for TRPM7 apo , TRPM7 VER , and TRPM7 NS ( Figure 5B ), indicating that the CCT-bound structure represents the closed, non-conducting state. This pore profile is in stark contrast with the profile obtained for the open-state structures of TRPM7, activated as a result of either the introduced gain-of-function mutation N1098Q (TRPM7 N1098Q ) or binding of agonist NTB (TRPM7 NTB ), 21 where the gate region is substantially wider ( Figure 5B ). Therefore, we propose that, in analogy to VER and NS, CCT acts by allosterically stabilizing the closed state of the TRPM7 channel.…”
Section: Resultscontrasting
confidence: 75%
“…Since the homologous site in TRPV channels is known as the vanilloid site, we will refer to this site as VL. 21 , 23 …”
Section: Resultsmentioning
confidence: 99%
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“…A possible explanation was offered by the discovery [48] that MDMX interacts with TRPM7, a bi-functional cation channel protein fused with a kinase domain. TRPM7 is a master regulator of the cellular balance of divalent cations, that mediates the uptake of Zn 2+ , Mg 2+ and Ca 2+ [49], and senses oxidative stress to release Zn 2+ from intracellular vesicles [50]. TRPM7 regulates MDMX levels by modulating Zn 2+ concentration, and induces the formation of faster moving forms of MDMX on SDS-PAGE gels [48].…”
Section: Discussionmentioning
confidence: 99%