Centers and Institutes
Published April 28, 2025 | Version v1
Journal article Open

Structural basis for regulation of CELSR1 by a compact module in its extracellular region

Creators

  • 1. University of Chicago
  • 2. Vanderbilt University

Description

The Cadherin EGF Laminin G seven-pass G-type receptor subfamily (CELSR/ADGRC) is one of the most conserved among adhesion G protein-coupled receptors and is essential for animal development. The extracellular regions (ECRs) of CELSRs are large with 23 adhesion domains. However, molecular insight into CELSR function is sparsely available. Here, we report the 3.8 Å cryo-EM reconstruction of the mouse CELSR1 ECR and reveal that 14 domains form a compact module mediated by conserved interactions majorly between the CADH9 and C-terminal GAIN domains. In the presence of Ca2+, the CELSR1 ECR forms a dimer species mediated by the cadherin repeats putatively in an antiparallel fashion. Cell-based assays reveal the N-terminal CADH1-8 repeat is required for cell-cell adhesion and the C-terminal CADH9-GAIN compact module can regulate cellular adhesion. Our work provides molecular insight into how one of the largest GPCRs uses defined structural modules to regulate receptor function.

Data availability

All data are available in the main text or the supplementary materials. The final model and cryo-EM data have been deposited into the Protein Data Bank under PDB ID 8VY2 and EMDB ID EMD-43644. Small-angle X-ray scattering data are available at SASBDB under the accession codes SASDVS7 and SASDVT7 [https://www.sasbdb.org/data/SASDVS7/] and [https://www.sasbdb.org/data/SASDVT7/]. Simulation data are available from the Figshare repository [https://doi.org/10.6084/m9.figshare.28811603]. Source Data are provided with this paper. Plasmids and other reagents are available upon request from the corresponding authors, D.A. and R.C.S. Source data are provided with this paper.

Files

Structural-basis-for-regulation-of-CELSR1-by-a-compact-module-in-its-extracellular-region.pdf

Files (73.6 MB)

Name Size Download all
Source data
md5:1f0e1691892087adfc13c6af82957c47
5.0 MB Download
Article
md5:6c3faca70174cfe2d39026ccb59f3cfd
3.7 MB Preview Download
Supplementary information files
md5:addaf4fff2197184968d6594feb40a4f
64.9 MB Preview Download

Additional details

Identifiers

DOI
10.1038/s41467-025-59319-8
Other
oai:uchicago.tind.io:14981

Related works

Cites
https://doi.org/10.6084/m9.figshare.28811603 (URL)

Funding

National Institutes of Health
R35GM148412
National Institutes of Health
F32GM142266
National Institutes of Health
K99GM157487
National Institutes of Health
R00MH117235
Alfred P. Sloan Foundation
Sloan Research Fellowship

UChicago Information

Division(s)
Biological Sciences Division
Department(s)
Biochemistry and Molecular Biology
Center(s) or Institute(s)
Center for Mechanical Excitability, Institute for Biophysical Dynamics, Neuroscience Institute