AI Article Synopsis
- The Down syndrome cell adhesion molecule (DSCAM) is crucial for neural development, featuring a large ectodomain with various structural domains that facilitate cell adhesion and neuron organization.
- Research using electron microscopy has revealed that mouse DSCAM creates a distinct pattern at adhesion sites, with both Ig-like and fibronectin III domains playing key roles in this structure and function.
- Unlike DSCAM, other variants like mouse DSCAML1 do not form a noticeable assembly pattern, indicating different mechanisms behind their roles in cell adhesion and neural network development.
Article Abstract
The Down syndrome cell adhesion molecule (DSCAM) belongs to the immunoglobulin superfamily (IgSF) and plays important roles in neural development. It has a large ectodomain, including 10 Ig-like domains and 6 fibronectin III (FnIII) domains. Previous data have shown that DSCAM can mediate cell adhesion by forming homophilic dimers between cells and contributes to self-avoidance of neurites or neuronal tiling, which is important for neural network formation. However, the organization and assembly of DSCAM at cell adhesion interfaces has not been fully understood. Here we combine electron microscopy and other biophysical methods to characterize the structure of the DSCAM-mediated cell adhesion and generate three-dimensional views of the adhesion interfaces of DSCAM by electron tomography. The results show that mouse DSCAM forms a regular pattern at the adhesion interfaces. The Ig-like domains contribute to both homophilic interactions and assembly of the pattern, and the FnIII domains are crucial for the pattern formation as well as the interaction with the cell membrane. By contrast, no obvious assembly pattern is observed at the adhesion interfaces mediated by mouse DSCAML1 or DSCAMs, suggesting the different structural roles and mechanisms of DSCAMs in mediating cell adhesion and neural network formation.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8488690 | PMC |
| http://dx.doi.org/10.1073/pnas.2022442118 | DOI Listing |
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