Morphological modulation of cultured rat brain astroglial cells: antagonism by ganglioside GM1.

Secondary cultures of neonatal rat astroglial cells, maintained in a serum-free, chemically defined medium were treated with several agents thought to activate cyclic AMP-synthesizing systems. Dibutyryl cyclic AMP (dBcAMP), forskolin and cholera toxin promoted, within 2 h, the near-complete conversion of 1-day-old (D1) astroglial cells from a flat, epithelioid morphology to a stellate (star-shaped) morphology. With all 3 agents, cell susceptibility to morphological change declined with culture age, 5-day-old cultures failing to respond altogether. D1 cultures, after 48 h of treatment, had reverted to the flat morphology. Gangliosides reported to stimulate adenylate cyclase were also tested, using purified GM1 X GM1 failed to stimulate the conversion to stellate morphologies. GM1, however, did affect these astroglial cells by causing a block or reversal of their morphological response to dBcAMP, forskolin or cholera toxin. The GM1 response was specific for the intact ganglioside molecule, asialo GM1 and sialic acid having no effect. Gangliosides GD1a, GD1b and GT1b were also active, being effective at ca. 4-fold lower concentrations. The response to GM1 appeared to involve a direct interaction with the astroglial cell, rather than influencing either substratum or medium components.