AI Article Synopsis
- The Schwann cell basement membrane (BM) is crucial for the proper differentiation of Schwann cells, but the specific function of certain collagens, particularly collagen XV, in nerve development is not well understood.
- The absence of collagen XV in mice results in improperly organized axons in C-fibers and compromised myelination, especially when combined with the lack of laminin α4, which leads to more severe nerve injury and abnormal nerve structure even after a year.
- Observations show that the absence of these components affects sensory nerve function, resulting in slower conduction speeds and changes in myelin structure, highlighting the importance of collagen XV and laminin α4 in the maturation of peripheral nerves and C-fiber formation.
Article Abstract
Although the Schwann cell basement membrane (BM) is required for normal Schwann cell terminal differentiation, the role of BM-associated collagens in peripheral nerve maturation is poorly understood. Collagen XV is a BM zone component strongly expressed in peripheral nerves, and we show that its absence in mice leads to loosely packed axons in C-fibers and polyaxonal myelination. The simultaneous lack of collagen XV and another peripheral nerve component affecting myelination, laminin α4, leads to severely impaired radial sorting and myelination, and the maturation of the nerve is permanently compromised, contrasting with the slow repair observed in Lama4-/- single knock-out mice. Moreover, the Col15a1-/-;Lama4-/- double knock-out (DKO) mice initially lack C-fibers and, even over 1 year of age have only a few, abnormal C-fibers. The Lama4-/- knock-out results in motor and tactile sensory impairment, which is exacerbated by a simultaneous Col15a1-/- knock-out, whereas sensitivity to heat-induced pain is increased in the DKO mice. Lack of collagen XV results in slower sensory nerve conduction, whereas the Lama4-/- and DKO mice exhibit increased sensory nerve action potentials and decreased compound muscle action potentials; x-ray diffraction revealed less mature myelin in the sciatic nerves of the latter than in controls. Ultrastructural analyses revealed changes in the Schwann cell BM in all three mutants, ranging from severe (DKO) to nearly normal (Col15a1-/-). Collagen XV thus contributes to peripheral nerve maturation and C-fiber formation, and its simultaneous deletion from neural BM zones with laminin α4 leads to a DKO phenotype distinct from those of both single knock-outs.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6634795 | PMC |
| http://dx.doi.org/10.1523/JNEUROSCI.2644-10.2010 | DOI Listing |
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