Jinling Xie scite author profile

Of the vertebrate senses, touch is the least understood at the molecular level The ion channels that form the core of the mechanosensory complex and confer touch sensitivity remain unknown. However, the similarity of the brain sodium channel 1 (BNC1) to nematode proteins involved in mechanotransduction indicated that it might be a part of such a mechanosensor. Here we show that disrupting the mouse BNC1 gene markedly reduces the sensitivity of a specific component of mechanosensation: low-threshold rapidly adapting mechanoreceptors. In rodent hairy skin these mechanoreceptors are excited by hair movement. Consistent with this function, we found BNC1 in the lanceolate nerve endings that lie adjacent to and surround the hair follicle. Although BNC1 has been proposed to have a role in pH sensing, the acid-evoked current in cultured sensory neurons and the response of acid-stimulated nociceptors were normal in BNC1 null mice. These data identify the BNC1 channel as essential for the normal detection of light touch and indicate that BNC1 may be a central component of a mechanosensory complex.

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The DRASIC Cation Channel Contributes to the Detection of Cutaneous Touch and Acid Stimuli in Mice

Price

McIlwrath

Xie

et al. 2001

Neuron

553

385

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Cation channels in the DEG/ENaC family are proposed to detect cutaneous stimuli in mammals. We localized one such channel, DRASIC, in several different specialized sensory nerve endings of skin, suggesting it might participate in mechanosensation and/or acid-evoked nociception. Disrupting the mouse DRASIC gene altered sensory transduction in specific and distinct ways. Loss of DRASIC increased the sensitivity of mechanoreceptors detecting light touch, but it reduced the sensitivity of a mechanoreceptor responding to noxious pinch and decreased the response of acid- and noxious heat-sensitive nociceptors. The data suggest that DRASIC subunits participate in heteromultimeric channel complexes in sensory neurons. Moreover, in different cellular contexts, DRASIC may respond to mechanical stimuli or to low pH to mediate normal touch and pain sensation.

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Heteromultimers of DEG/ENaC subunits form H ⁺ -gated channels in mouse sensory neurons

Benson

Xie

Wemmie

et al. 2002

Proc. Natl. Acad. Sci. U.S.A.

341

370

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Acidic extracellular solution activates transient H+-gated currents in dorsal root ganglion (DRG) neurons. The biophysical properties of three degenerin/epithelial sodium (DEG/ENaC) channel subunits (BNC1, ASIC, and DRASIC), and their expression in DRG, suggest that they might underlie these H+-gated currents and function as sensory transducers. However, it is uncertain which of these DEG/ENaC subunits generate the currents, and whether they function as homomultimers or heteromultimers. We found that the biophysical properties of transient H+-gated currents from medium to large mouse DRG neurons differed from BNC1, ASIC, or DRASIC expressed individually, but were reproduced by coexpression of the subunits together. To test the contribution of each subunit, we studied DRG from three strains of mice, each bearing a targeted disruption of BNC1, ASIC, or DRASIC. Deletion of any one subunit did not abolish H+-gated currents, but altered currents in a manner consistent with heteromultimerization of the two remaining subunits. These data indicate that combinations of two or more DEG/ENaC subunits coassemble as heteromultimers to generate transient H+-gated currents in mouse DRG neurons

show abstract

The DRASIC Cation Channel Contributes to the Detection of Cutaneous Touch and Acid Stimuli in Mice

Price

McIlwrath

Xie

et al. 2002

Neuron

109

201

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Jinling Xie

The mammalian sodium channel BNC1 is required for normal touch sensation

The DRASIC Cation Channel Contributes to the Detection of Cutaneous Touch and Acid Stimuli in Mice

Heteromultimers of DEG/ENaC subunits form H ⁺ -gated channels in mouse sensory neurons

The DRASIC Cation Channel Contributes to the Detection of Cutaneous Touch and Acid Stimuli in Mice

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About

Jinling Xie

The mammalian sodium channel BNC1 is required for normal touch sensation

The DRASIC Cation Channel Contributes to the Detection of Cutaneous Touch and Acid Stimuli in Mice

Heteromultimers of DEG/ENaC subunits form H + -gated channels in mouse sensory neurons

The DRASIC Cation Channel Contributes to the Detection of Cutaneous Touch and Acid Stimuli in Mice

Contact Info

Product

Resources

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Heteromultimers of DEG/ENaC subunits form H ⁺ -gated channels in mouse sensory neurons