Abstract
Merkel cell-neurite complexes (MNCs) are enriched in touch-sensitive areas, including whisker hair follicles and the glabrous skin of the rodent’s paws, where tactile stimulation elicits slowly adapting type 1 (SA1) tactile impulses to encode for the sense of touch. Recently, we have shown with rodent whisker hair follicles that SA1 impulses are generated through fast excitatory synaptic transmission at MNCs and driven by acid-sensing ion channels (ASICs). However, it is currently unknown whether, besides whisker hair follicles, ASICs also play an essential role in generating SA1 impulses from MNCs of other body parts in mammals. In the present study, we attempted to address this question by using the skin-nerve preparations made from the hindpaw glabrous skin and tibial nerves of both male and female rodents and applying the pressure-clamped single-fiber recordings. We showed that SA1 impulses elicited by tactile stimulation to the rat hindpaw glabrous skin were largely diminished in the presence of amiloride and diminazene, two ASIC channel blockers. Furthermore, using the hindpaw glabrous skin and tibial nerve preparations made from the mice genetically deleted of ASIC3 channels (ASIC3-/-), we showed that the frequency of SA1 impulses was significantly lower in ASIC3-/- mice than in littermate wildtype ASIC3+/+ mice, a result consistent with the pharmacological experiments with ASIC channel blockers. Our findings suggest that ASIC channels are essential for generating SA1 impulses to underlie the sense of touch in the glabrous skin of rodent hindpaws.
Significance Statement Merkel cell-neurite complexes (MNCs) are enriched in touch-sensitive areas, including whisker hair follicles and the glabrous skin of the rodent’s paws, where tactile stimulation elicits slowly adapting type 1 (SA1) tactile impulses to encode for the sense of touch. Here, using the skin-nerve preparations made from the hindpaw glabrous skin and tibial nerves of rodents and applying the pressure-clamped single-fiber recordings, we have demonstrated that ASIC channels are essential for generating SA1 impulses at MNCs in the glabrous skin of rodent hindpaws. Thus, ASIC channels at MNCs may play a key role in the sense of touch to the skin of mammals.
Footnotes
This study was supported by the National Institute of Health grants NS109059, DE018661, and DE023090 to J.G.G. and NS131209 to W.L.
The authors declare no competing interests.