AI Article Synopsis
- * Different Piezo2 isoforms are expressed in sensory neurons of mice and humans, while most non-neuronal tissues show a single form, indicating specialization in sensory functions.
- * The research highlights significant variations in how these Piezo2 variants function, including differences in ion permeability and responsiveness to calcium, suggesting a complex way our bodies detect different mechanical stimuli.
Article Abstract
Piezo2 is a mechanically activated ion channel required for touch discrimination, vibration detection, and proprioception. Here, we discovered that Piezo2 is extensively spliced, producing different Piezo2 isoforms with distinct properties. Sensory neurons from both mice and humans express a large repertoire of Piezo2 variants, whereas non-neuronal tissues express predominantly a single isoform. Notably, even within sensory ganglia, we demonstrate the splicing of Piezo2 to be cell type specific. Biophysical characterization revealed substantial differences in ion permeability, sensitivity to calcium modulation, and inactivation kinetics among Piezo2 splice variants. Together, our results describe, at the molecular level, a potential mechanism by which transduction is tuned, permitting the detection of a variety of mechanosensory stimuli.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5741189 | PMC |
| http://dx.doi.org/10.1016/j.celrep.2017.11.035 | DOI Listing |
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