Astrocytes generate calcium signals and proliferate in response to a growth factor-like lipid bound to plasma and serum albumin, in a process likely to be important in the formation of glial scars. A number of potential candidates for the physiologically active lipid were investigated. Lysophosphatidic acid, lysophosphatidylcholine, sphingomyelin, and platelet-activating factor all elicited calcium signals of varying magnitudes in cortical astrocytes, although only lysophosphatidic acid elicited calcium signals comparable in amplitude to those induced by the active physiological lipid. None of these lipids, however, caused cell division in astrocytes. There is therefore no invariable relationship between the ability of lipids to induce calcium signals and mitogenic activity. None of the lipids investigated demonstrate the activity of the natural lipid factor in generating both calcium signals and mitotic activity in astrocytes.
Copyright 1999 Wiley-Liss, Inc.