AI Article Synopsis
- The mammalian middle ear includes three ossicles (malleus, incus, stapes) that are specialized for sound transmission, with the stapes being crucial due to its stirrup shape allowing it to connect to the inner ear.
- In studies with embryos lacking CXCL12, a key chemokine, the stapes failed to develop its typical stirrup shape, appearing instead as a column, which hindered proper artery development.
- The findings highlight the importance of CXCL12 in shaping the stapes and maintaining the connection with the stapedial artery during ear development.
Article Abstract
Background: The mammalian middle ear comprises a chain of three ossicles-the malleus, incus, and stapes-each of which has a unique morphology for efficiently transmitting sound information. In particular, the stapes, which is attached to the inner ear, is stirrup-shaped with a head and base connected by two crural arches, forming the stapedial foramen, through which the stapedial artery passes. However, how the stapes acquires this critical stirrup shape for association with the stapedial artery during development is not clear.
Results: C-X-C motif chemokine ligand 12 (CXCL12) is a chemoattractant essential for cellular movement and angiogenesis. In Cxcl12 embryos, migration of neural crest cells into the prospective middle ear regions and their mesenchymal condensation to form the three ossicles proceed normally in correct alignment with each other and the inner ear. However, in the absence of CXCL12, the stapes loses its stirrup shape and instead exhibits a columnar shape lacking the crural arches and central hole. In addition, although the stapedial artery initially forms during early mesenchymal condensation of the stapes, it degenerates without CXCL12 function.
Conclusion: CXCL12 plays an essential role in establishing the stirrup-shaped architecture of the stapes, possibly by maintaining the stapedial foramen and stapedial artery throughout development.
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| http://dx.doi.org/10.1002/dvdy.180 | DOI Listing |
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