Codistribution of neurite growth inhibitors and oligodendrocytes in rat CNS: Appearance follows nerve fiber growth and precedes myelination

Abstract

Higher vertebrate CNS myelin and oligodendrocytes in vitro contain membrane-bound surface proteins of 35 and 250 kDa with marked inhibitory properties for neurite growth and for fibroblast spreading. The inhibitory activity is neutralized by monoclonal antibody IN-1, which binds to the inhibitory proteins. IN-1 also neutralizes the nonpermissive substrate properties of adult rat optic nerve explants and spinal cord white matter in vitro, thus suggesting a crucial involvement of these inhibitors in the nonpermissive nature of the adult CNS of higher vertebrates. We have determined time of appearance and distribution of the IN-1-sensitive inhibitory activity in the rat. In the optic nerve, inhibitors appear after the period of axonal growth and before myelination. A similar schedule was found for the spinal cord and for the cerebellum. No IN-1-sensitive inhibitory activity was found outside the CNS or in oligodendrocyte-free regions of the CNS. Where investigated, the distribution of inhibitory oligodendrocytes and of IN-1-sensitive inhibitory activity correlated well. Our data suggest that IN-1-sensitive inhibitory activity in vivo might be an oligodendrocyte-specific property.