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Structural determinants of protocadherin-15 mechanics and function in hearing and balance perception. | LitMetric

AI Article Synopsis

  • - The inner ear is crucial for hearing and balance, with the tip-link protein complex playing a key role in sensing tiny mechanical stimuli by opening transduction channels for sensory perception.
  • - Protocadherin-15 and cadherin-23 are large proteins involved in forming the tip-link, which is linked to hearing and balance disorders; their structure was examined using X-ray crystallography.
  • - Advanced molecular dynamics simulations helped model the structural properties of protocadherin-15, offering insights into how it may function as a flexible or rigid component in inner-ear sensory perception and its relevance to related diseases.

Article Abstract

The vertebrate inner ear, responsible for hearing and balance, is able to sense minute mechanical stimuli originating from an extraordinarily broad range of sound frequencies and intensities or from head movements. Integral to these processes is the tip-link protein complex, which conveys force to open the inner-ear transduction channels that mediate sensory perception. Protocadherin-15 and cadherin-23, two atypically large cadherins with 11 and 27 extracellular cadherin (EC) repeats, are involved in deafness and balance disorders and assemble as parallel homodimers that interact to form the tip link. Here we report the X-ray crystal structure of a protocadherin-15 + cadherin-23 heterotetrameric complex at 2.9-Å resolution, depicting a parallel homodimer of protocadherin-15 EC1-3 molecules forming an antiparallel complex with two cadherin-23 EC1-2 molecules. In addition, we report structures for 10 protocadherin-15 fragments used to build complete high-resolution models of the monomeric protocadherin-15 ectodomain. Molecular dynamics simulations and validated crystal contacts are used to propose models for the complete extracellular protocadherin-15 parallel homodimer and the tip-link bond. Steered molecular dynamics simulations of these models suggest conditions in which a structurally diverse and multimodal protocadherin-15 ectodomain can act as a stiff or soft gating spring. These results reveal the structural determinants of tip-link-mediated inner-ear sensory perception and elucidate protocadherin-15's structural and adhesive properties relevant in disease.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7547225PMC
http://dx.doi.org/10.1073/pnas.1920444117DOI Listing

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