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Mechanosensitivity of voltage-gated K+ currents in rat trigeminal ganglion neurons

✍ Scribed by Lin Piao; Hai Ying Li; Chul-Kyu Park; Ik-Hyun Cho; Zheng Gen Piao; Sung Jun Jung; Se-Young Choi; Sung Joong Lee; Kyungpyo Park; Joong-Soo Kim; Seog Bae Oh

Publisher
John Wiley and Sons
Year
2006
Tongue
English
Weight
459 KB
Volume
83
Category
Article
ISSN
0360-4012

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✦ Synopsis

Abstract

We investigated the mechanosensitivity of voltage‐gated K^+^ channel (VGPC) currents by using whole‐cell patch clamp recording in rat trigeminal ganglion (TG) neurons. On the basis of biophysical and pharmacological properties, two types of VGPC currents were isolated. One was transient (I~K,A~), the other sustained (I~K,V~). Hypotonic stimulation (200 mOsm) markedly increased both I~K,A~ and I~K,V~ without affecting their activation and inactivation kinetics. Gadolinium, a well‐known blocker of mechanosensitive channels, failed to block the enhancement of I~K,A~ and I~K,V~ induced by hypotonic stimulation. During hypotonic stimulation, cytochalasin D, an actin‐based cytoskeletal disruptor, further increased I~K,A~ and I~K,V~, whereas phalloidin, an actin‐based cytoskeletal stabilizer, reduced I~K,A~ and I~K,V~. Confocal imaging with Texas red‐phalloidin showed that actin‐based cytoskeleton was disrupted by hypotonic stimulation, which was similar to the effect of cytochalasin D. Our results suggest that both I~K,A~ and I~K,V~ are mechanosensitive and that actin‐based cytoskeleton is likely to regulate the mechanosensitivity of VGPC currents in TG neurons. © 2006 Wiley‐Liss, Inc.

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