Structural proteins in the growth cone of cultured spinal cord neurons

Abstract

The distribution of several structural proteins in the extending neurites and growth cones of cultured embryonic mouse spinal cord neurons was studied by indirect immunofluorescence, using affinity chromatography-purified antibodies. Fibroblastic cells in the same cultures served as internal standards for the evaluation of staining intensities. Anti-tubulin, anti-actin, and anti-clathrin stained neurons and their processes intensely, while staining with anti-α-actinin was only moderate compared with fibroblasts. Microtubules were resolved by anti-tubulin in the ‘palm’ of the growth cone but not in the neurite. Anti-actin stained even the finest lamellae and filopodia of the growth cone, and the neurite. Anti-α-actinin revealed an irregularly speckled pattern of cross-reactive material in the neurite and in the palm of the growth cone and was absent from the filopodia. Anti-clathrin stained the neurite intensely and homogeneously, and to a lesser extent the palm of the growth cone. The staining with antibodies against tubulin and clathrin differed grossly between neurons and fibroblastic cells. Within the neuron there were only gradual differences in staining intensities. The growth cone was not qualitatively different from the rest of the neurite, except for the filopodia which lacked tubulin and α-actinin, similar to the microvilli of epithelial cells.