Mechanotransduction by PCDH15 Relies on a Novel cis-Dimeric Architecture

Gilman Dionne, Xufeng Qiu, Micah Rapp, Xiaoping Liang, Bo Zhao, Guihong Peng, Phinikoula S. Katsamba, Goran Ahlsen, Rotem Rubinstein, Clinton S. Potter, Bridget Carragher, Barry Honig, Ulrich Müller, Lawrence Shapiro

Research output: Contribution to journalArticlepeer-review

12 Scopus citations


The tip link, a filament formed by protocadherin 15 (PCDH15) and cadherin 23, conveys mechanical force from sound waves and head movement to open hair-cell mechanotransduction channels. Tip-link cadherins are thought to have acquired structural features critical for their role in mechanotransduction. Here, we biophysically and structurally characterize the unusual cis-homodimeric architecture of PCDH15. We show that PCDH15 molecules form double-helical assemblies through cis-dimerization interfaces in the extracellular cadherin EC2-EC3 domain region and in a unique membrane-proximal domain. Electron microscopy studies visualize the cis-dimeric PCDH15 assembly and reveal the PCDH15 extracellular domain as a parallel double helix with cis cross-bridges at the two locations we defined. The helical configuration suggests the potential for elasticity through helix winding and unwinding. Functional studies in hair cells show that mutations that perturb PCDH15 dimerization contacts affect mechanotransduction. Together, these data reveal the cis-dimeric architecture of PCDH15 and show that dimerization is critical for sensing mechanical stimuli. The tip link, a filament linking stereocilia, is critical for auditory mechanotransduction. Dionne et al. describe structural studies of protocadherin-15 that reveal its cis-dimeric architecture. Assays in hair cells using structure-guided mutations show the cis interface is critical for mechanotransduction.

Original languageEnglish (US)
Pages (from-to)480-492.e5
Issue number3
StatePublished - Aug 8 2018


  • PCDH15
  • gating spring
  • hair cell
  • hearing
  • mechanotransduction
  • protocadherin
  • tip link

ASJC Scopus subject areas

  • Neuroscience(all)


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