Mycoplasma fermentans glycolipid triggers inflammatory response in rat astrocytes

Mycoplasma fermentans glycolipid (MfGL-II) is a major lipid in the membranes of this AIDS-associated mycoplasma and constituting up to 20% of the total phospholipids of this organism. It was recently shown that MfGL-II, mainly through its phosphocholine moiety, is responsible for the attachment of M. fermentans to host cells. We now show that MfGL-II is also associated with the secretion of inflammatory mediators by cells of the central nervous system. Stimulation of primary rat astrocytes by MfGL-II caused activation of protein kinase C, secretion of nitric oxide (NO) and prostaglandin E-2, and augmented glucose utilization and lactate formation in a dose-dependent manner. In an attempt to define the minimal structural requirements for MfGL-II activity, the two O-acylated fatty acids in the molecule were removed. Deacylation pronouncedly reduced the stimulatory activity of the glycolipid, suggesting that the fatty acyl residues are essential. Incubation of MfGL-II with polyclonal anti-MfGL-II antiserum or with monoclonal anti-phosphocholine antibody diminished NO release, whereas incubation of MfGL-II with normal rabbit serum had no effect. It is, therefore, likely that the terminal phosphocholine moiety plays an important role in MfGL-IIs stimulation of glial cells. (C) 1998 Elsevier Science B.V. All rights reserved.