2017
DOI: 10.1016/j.pbiomolbio.2017.07.011
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Piezo channels and GsMTx4: Two milestones in our understanding of excitatory mechanosensitive channels and their role in pathology

Abstract: Discovery of Piezo channels and the reporting of their sensitivity to the inhibitor GsMTx4 were important milestones in the study of non-selective cationic mechanosensitive channels (MSCs) in normal physiology and pathogenesis. GsMTx4 had been used for years to investigate the functional role of cationic MSCs, especially in muscle tissue, but with little understanding of its target or inhibitory mechanism. The sensitivity of Piezo channels to bilayer stress and its robust mechanosensitivity when expressed in h… Show more

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Cited by 79 publications
(55 citation statements)
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References 131 publications
(153 reference statements)
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“…This may be explained by the replacement of residues E2495 and E2496 that are critical for mouse Piezo Ruthenium Red sensitivity, with E2466 and D2467 in Drosophila Piezo [59] and D2502 and D2503 in CsPiezo. GsMTx4 is a more speci c blocker of mechanosensitive cation channels including Piezos [60]. Although voltage activated K + and Na + channels are also sensitive to the L-form of GsMTx4 at relatively high concentrations [61], lower concentrations of its D-form, which was used here, are unlikely to have signi cant effects on voltage gated channels [62].…”
Section: Discussionmentioning
confidence: 97%
“…This may be explained by the replacement of residues E2495 and E2496 that are critical for mouse Piezo Ruthenium Red sensitivity, with E2466 and D2467 in Drosophila Piezo [59] and D2502 and D2503 in CsPiezo. GsMTx4 is a more speci c blocker of mechanosensitive cation channels including Piezos [60]. Although voltage activated K + and Na + channels are also sensitive to the L-form of GsMTx4 at relatively high concentrations [61], lower concentrations of its D-form, which was used here, are unlikely to have signi cant effects on voltage gated channels [62].…”
Section: Discussionmentioning
confidence: 97%
“…It may be speculated that the abrupt sarcolemmal deformation produced by the percussion opens mechano-sensitive ion channels 27 and activates depolarizing currents that excite the affected muscle fibres, similarly to what has been described for nerve fibres 28,29 . In support of this hypothesis is the abundance of mechano-sensitive channels on the sarcolemma, belonging to the transient receptor potential (TRP) and to the Piezo families 30,31 . They are considered to be sensitive to the force transmitted by the lipid bilayer of the cell membrane 32 and, in particular, to shear stress and stretch of the membrane 33 .…”
Section: Discussionmentioning
confidence: 99%
“…In the skeletal muscle, these non-selective cation channels are considered to have a role in different processes such as muscle development and contrast to muscle fatigue. In addition, due to their contribution to calcium inflow they have been implicated in the alteration of the contractile machinery in muscle dystrophies 30,31,34 . In vascular smooth muscle, stretch-activated mechano-sensitive cation channels are considered to mediate the membrane depolarization that precedes the contraction, in the myogenic response (the vessel constrictory response to increased transmural pressure) 35 .…”
Section: Discussionmentioning
confidence: 99%
“…modification of membrane curvature/tension [20,21]; ii) re-distribution of transmembrane proteins [22,23]; iii) modulation of ionic fluxes through mechanosensitive ion channels [24][25][26][27]; iv) deformation of cyto-nucleoskeletal elements [28,29]; and v) reorganization of intracellular organelles [30][31][32].…”
Section: Introductionmentioning
confidence: 99%