AI Article Synopsis
- Neurons in the amphid extend dendrites through a glial channel and rely on a protein called DYF-7 for attachment during their development.
- Both amphid neurons and glia display properties typical of epithelial cells, including structures like tight junctions and a specific organization (apical-basal polarity).
- The research reveals that DYF-7 plays a key role in forming glial channels and that other neurons exposed to the environment also depend on DYF-7, suggesting these neurons and glia function similarly to epithelial tissue.
Article Abstract
To sense the outside world, some neurons protrude across epithelia, the cellular barriers that line every surface of our bodies. To study the morphogenesis of such neurons, we examined the amphid, in which dendrites protrude through a glial channel at the nose. During development, amphid dendrites extend by attaching to the nose via DYF-7, a type of protein typically found in epithelial apical ECM. Here, we show that amphid neurons and glia exhibit epithelial properties, including tight junctions and apical-basal polarity, and develop in a manner resembling other epithelia. We find that DYF-7 is a fibril-forming apical ECM component that promotes formation of the tube-shaped glial channel, reminiscent of roles for apical ECM in other narrow epithelial tubes. We also identify a requirement for FRM-2, a homolog of EPBL15/moe/Yurt that promotes epithelial integrity in other systems. Finally, we show that other environmentally exposed neurons share a requirement for DYF-7. Together, our results suggest that these neurons and glia can be viewed as part of an epithelium continuous with the skin, and are shaped by mechanisms shared with other epithelia.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6398450 | PMC |
| http://dx.doi.org/10.1242/dev.171124 | DOI Listing |
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