Abstract
The contribution of the axonal transport to the biosynthesis of myelin phospholipids was investigated in the rabbit optic pathway. A double labeling technique was used. The same animals were injected with one isotope intravitreally and the other intraventricularly. This procedure allows double labeling of the optic nerves, optic tracts, lateral geniculate bodies (LGB), and superior colliculus (SC). The precursors simultaneously injected were: [1-14C]palmitate (15 μCi intravitreally in both eyes or 50 μCi intraventricularly) and [2-3H]glycerol (50 μCi intravitreally in both eyes or 100 μCi intraventricularly). Twenty four hours and 10 days after the injections, myelin was purified from pooled optic nerves and optic tracts as well as from pooled LGBs or SCs. The phospholipids were extracted and then separated by thin-layer chromatography; the specific radioactivity of the various classes of phospholipids was determined. Using both administration routes of14C-or3H-precursors, the distribution of label and specific radioactivity of myelin phospholipids in the retina and in all other optic structures were very similar. Phosphatidylcholine, phosphatidylethanolamine and phosphatidylserine + phosphoinositol were preferentially labeled with both precursors. These results suggest that, in the rabbit optic pathway the phospholipids synthesized in the retinal ganglion cells and transported along the axons, could undergo transaxonal transfer into myelin.
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Alberghina, M., Viola, M. & Giuffrida, A.M. Transfer of axonally transported phospholipids into myelin isolated from the rabbit optic pathway. Neurochem Res 7, 139–149 (1982). https://doi.org/10.1007/BF00965052
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DOI: https://doi.org/10.1007/BF00965052