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Sallinger, M; Tiffner, A; Schmidt, T; Bonhenry, D; Waldherr, L; Frischauf, I; Lunz, V; Derler, I; Schober, R; Schindl, R.
Luminal STIM1 Mutants that Cause Tubular Aggregate Myopathy Promote Autophagic Processes.
INT J MOL SCI. 2020; 21(12): 4410 Doi: 10.3390/ijms21124410 [OPEN ACCESS]
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Leading authors Med Uni Graz: Schindl Rainer
Co-authors Med Uni Graz: Schmidt Tony; Schober Romana; Waldherr Linda
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Abstract:: Stromal interaction molecule 1 (STIM1) is a ubiquitously expressed Ca²⁺ sensor protein that induces permeation of Orai Ca²⁺ channels upon endoplasmic reticulum Ca²⁺-store depletion. A drop in luminal Ca²⁺ causes partial unfolding of the N-terminal STIM1 domains and thus initial STIM1 activation. We compared the STIM1 structure upon Ca²⁺ depletion from our molecular dynamics (MD) simulations with a recent 2D NMR structure. Simulation- and structure-based results showed unfolding of two α-helices in the canonical and in the non-canonical EF-hand. Further, we structurally and functionally evaluated mutations in the non-canonical EF-hand that have been shown to cause tubular aggregate myopathy. We found these mutations to cause full constitutive activation of Ca²⁺-release-activated Ca²⁺ currents (I_CRAC) and to promote autophagic processes. Specifically, heterologously expressed STIM1 mutations in the non-canonical EF-hand promoted translocation of the autophagy transcription factors microphthalmia-associated transcription factor (MITF) and transcription factor EB (TFEB) into the nucleus. These STIM1 mutations additionally stimulated an enhanced production of autophagosomes. In summary, mutations in STIM1 that cause structural unfolding promoted Ca²⁺ down-stream activation of autophagic processes.
Find related publications in this database (Keywords): STIM; Orai; Ca2+; SOCE; MITF; TFEB; hydrophobic pocket; EF-hand; tubular aggregate myopathy