The phosphatidylinositol response is an early event in the physiologically relevant activation of antigen-specific B lymphocytes.

Receptor ligand-induced turnover of plasma membrane phosphatidylinositol (PI) has been implicated as part of a membrane receptor signal transduction system in a number of mammalian cell types. Signaling through B-lymphocyte surface immunoglobulin (sIg2) has been explored polyclonally through the use of anti-Ig reagents, with the assumption that anti-Ig mimics the process of antigen binding to the antigen-specific cell. We have utilized a method of obtaining trinitrophenyl (TNP)-specific populations of B lymphocytes in order to determine if antigen binding to these antigen-specific cells initiates PI turnover. This method has allowed us to explore the membrane phospholipid events following antigen binding directly, rather than with inference from the anti-Ig system. We have found that both thymus-dependent and thymus-independent antigens (with the exception of TNP-lipopolysaccharide) produced an increase in PI turnover comparable to that generated by anti-IgM stimulation. The lack of increased PI turnover following TNP-LPS stimulation may be attributable to the action of LPS on the biochemical events of the PI cycle. In a B-cell subpopulation depleted of antigen-specific cells, only anti-IgM produced a PI effect. These results represent the first demonstration of PI turnover as an early activation event in a physiologically relevant lymphocyte system.