Our previous study demonstrated that cultured macrophages release neurotrophic factors spontaneously. In a histological study of Wallerian degeneration, macrophages phagocytosed myelin debris and expressed activated markers. 2. To investigate the role of myelin-stimulated macrophages on neurite regeneration, we prepared conditioned media from cultured mouse peritoneal macrophages which had phagocytosed a myelin fraction. This conditioned media enhanced both neurone survival and neurite regeneration of adult dorsal root ganglia (DRG) neurons compare to conditioned media from macrophage cultures without myelin. 3. The production of the neurotrophic supernatant was dose-dependent on myelin fraction and specific for myelin because supernatants from macrophages incubated with LPS (lipoplysaccharide), MDP (N-acetylmuramyl-L-alanyl-D-isoglutamine) or latex beads were not neurotrophic. 4. The neurotrophic factors from myelin-stimulated macrophages were different from spontaneously released macrophage factors as they differed in heat-sensitivity. 5. These results suggest that myelin-stimulated macrophages contribute to axon regeneration after Wallerian degeneration.
