Gelsolin and functionally similar actin-binding proteins are regulated by lysophosphatidic acid.

An extensive survey was carried out for compounds capable of regulating actin-binding proteins in a manner similar to phosphatidylinositol 4,5 bisphosphate (PI 4,5-P2). For this purpose we developed a sensitive assay involving release of radioactively phosphorylated actin from the fragminP-actin complex. We found that the structurally simplest lysophospholipid, lysophosphatidic acid (LPA), dissociated the complex between fragminP and actin, whereas other lysophospholipids or sphingosine-1-phosphate were inactive. Furthermore, LPA inhibited the F-actin severing activity of human gelsolin, purified from plasma or as recombinant protein, mouse adseverin and Physarum fragminP. Dissociation of actin-containing complexes by LPA analyzed by gelfiltration indicated that LPA is active as a monomer, in contrast to PI 4,5-P2. We further show that binding of LPA to these actin-regulatory proteins promotes their phosphorylation by pp60(c-src). A PI 4,5-P2-binding peptide counteracted the effects mediated by LPA, suggesting that LPA binds to the same target region in these actin-binding proteins. When both LPA and PI 4,5-P2 were used in combination we found that LPA reduced the threshold concentration at which PI 4,5-P2 was active. Significantly, LPA promoted the release of gelsolin from barbed actin filaments in octylglucoside-permeabilized human platelets. These results suggest that lysophosphatidic acid could act as an intracellular modulator of actin-binding proteins. Our findings can also explain agonist-induced changes in the actin cytoskeleton that are not mediated by polyphosphoinositides.