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Title: Formation and maintenance of the myelin sheath in the peripheral nerve: roles of cell adhesion molecules and the gap junction protein connexin 32. Author: Martini R, Carenini S. Journal: Microsc Res Tech; 1998 Jun 01; 41(5):403-15. PubMed ID: 9672423. Abstract: Based on previous in vitro studies, the cell adhesion molecules L1, N-CAM, MAG, and P0, which all belong to the immunoglobulin (Ig)-superfamily, have been suggested to mediate myelin formation in the peripheral nervous system. Unexpectedly, studies in mice deficient for the corresponding molecules revealed that only P0 plays pivotal roles during the formation of peripheral nerve myelin in vivo, while L1-, N-CAM-, and MAG-deficient mice develop myelin of normal ultrastructure. However, MAG turned out to be important for the maintenance of myelin, as reflected by degeneration of myelin and axons in MAG-deficient mice older than 6 months. The MAG-mediated maintenance of myelin is backed up by N-CAM, since mice deficient in both MAG and N-CAM show an earlier and more prominent myelin degeneration than MAG single mutants. Another peripheral nerve component involved in the maintenance of myelinated fibers is connexin 32 (Cx32), a gap junction channel protein that does not belong to the Ig-superfamily. Mice deficient in Cx32 initially form normal myelin, which then develops blown-up periaxonal collars and abnormally shaped non-compacted regions followed by myelin and axonal degeneration. Our findings strongly support the view that very few myelin components are necessary for myelin formation whereas the maintenance of myelin is much more sensitive to molecular alterations. In addition, it became evident that myelin molecules can fulfill functionally overlapping roles that ensure that myelination takes place even under conditions in which there is a deficiency in the normal molecular components of myelin.[Abstract] [Full Text] [Related] [New Search]