Juri M Jegelka scite author profile

Juri M Jegelka

2Publications

66Citation Statements Received

104Citation Statements Given

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Heidelberg University

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Intrinsically disordered intracellular domains control key features of the mechanically-gated ion channel PIEZO2

et al. 2022

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A central question in mechanobiology is how mechanical forces acting in or on cells are transmitted to mechanically-gated PIEZO channels that convert these forces into biochemical signals. Here we examined the role of the intracellular domains of PIEZO2, which account for 25% of the channel, and demonstrate that these domains fine-tune properties such as poking and stretch-sensitivity, velocity coding and single channel conductance. Moreover, we show that the intrinsically disordered linker between the transmembrane helices twelve and thirteen (IDR5) is required for the activation of PIEZO2 by cytoskeleton-transmitted forces. The deletion of IDR5 abolishes PIEZO2-mediated inhibition of neurite outgrowth, while it only partially affected its sensitivity to cell indentation and does not alter its stretch sensitivity. Thus, we propose that PIEZO2 is a polymodal mechanosensor that detects different types of mechanical stimuli via different force transmission pathways, which highlights the importance of utilizing multiple complementary assays when investigating PIEZO function.

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“An intrinsically disordered intracellular domain of PIEZO2 is required for force-from-filament activation of the channel”

Verkest

Schaefer

Jegelka

et al. 2021

Preprint

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A central question in mechanobiology is how mechanical forces acting in or on a cell are transmitted to mechanically-gated PIEZO channels that convert these forces into biochemical signals. Here we show that PIEZO2 is sensitive to force-transmission via the membrane (force-from-lipids) as well as force transmission via the cytoskeleton (force-from-filament) and demonstrate that the latter requires the intracellular linker between the transmembrane helices nine and ten (IDR5). Moreover, we show that rendering PIEZO2 insensitive to force-from-filament by deleting IDR5 abolishes PIEZO2-mediated inhibition of neurite outgrowth, which relies on the detection of cellgenerated traction forces, while it only partially affects its sensitivity to cell indentation and does not at all alter its sensitivity to membrane stretch. Hence, we propose that PIEZO2 is a polymodal mechanosensor that detects different types of mechanical stimuli via different force transmission pathways, which highlights the importance of utilizing multiple complementary assays when investigating PIEZO channel function.

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Juri M Jegelka

Intrinsically disordered intracellular domains control key features of the mechanically-gated ion channel PIEZO2

“An intrinsically disordered intracellular domain of PIEZO2 is required for force-from-filament activation of the channel”

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