Cell surface distribution of endogenous and effects of exogenous gangliosides on neuronal survival, cell shape and growth In vitro

Abstract

In vitro immunostaining of neurons from spinal cord or brain of embryonic chicken by means of monoclonal anti-ganglioside antibodies (Q211, D21b) revealed a fluorescence-labeling of c-polysialogangliosides and GD1b evenly distributed over the entire neuronal surface including filopodia at the growth cones. On electronmicroscopical level the gold-stained ganglioside-antigens were found more or less densely packed in small adjacent areas suggesting a concentration in local “domains”. Survival in serum-free or serum-containing medium of embryonic spinal cord motoneurons, which normally died if not cultivated in muscle conditioned medium or in contact to myotubes, was remarkably improved in the presence of a ganglioside mixture (10 μM) from bovine brain. If embryonic neurons from optic lobes were cultivated at low Ca 2+-concentration (<20 μM) they developed flat, broad cell bodies with many filopodia and only a few flat-shaped short processes. A very weak cytoskeleton-staining by means of rhodamine-linked phalloidine indicated that polymerization of actin was impaired in these neurons. At the same low Ca 2+-concentration of <20 μM but in the presence of ganglioside GM1 (up to 100 μM) most of the neurons developed a “normal” cell shape with rounded perikarya and thin neurites with “normal” shaped growth cones. In this case rhodamine-linked phalloidine revealed a much more intense staining mainly concentrated within the growing tips. The morphology and growth of the ganglioside-treated neurons resembled that of neurons cultivated at a higher Ca 2+-concentration of at least 600 μM.