The pollen-specific class VIII-myosin ATM2 from Arabidopsis thaliana associates with the plasma membrane through a polybasic region binding anionic phospholipids

Abstract

Pollen tubes display polarized tip-growth and are a model to study the coordination of vesicular trafficking and cytoskeletal control. The molecular details of how dynamic actin filaments associate with the plasma membrane are currently unclear. In Arabidopsis thaliana, plasma membrane attachment of actin filaments may be mediated by four myosins representing the plant-specific myosin-subclass VIII, which localize to the plasma membrane and display only minor motor-activity. Here we explore the mode of membrane attachment of the pollen-expressed class VIII-myosins ATM2 and VIII-B through interaction with anionic membrane phospholipids. A fluorescent mCherry-ATM2-fusion decorated plasma membrane-peripheral actin filaments when expressed in tobacco pollen tubes, consistent with a role of class VIII-myosins at the membrane-cytoskeleton interface. As recombinant proteins, class VIII-myosins are prone to aggregation and to proteolysis, creating a challenge for their biochemical characterization. We describe a purification scheme for guanidinium chloride (GdmCl)-denatured recombinant proteins, followed by a renaturation protocol to obtain pure, soluble protein fragments of ATM2 and VIII-B. The fragments represent the C-terminal tail and coiled-coil-regions and lack the N-terminal actin-binding regions, IQ or motor domains. Based on lipid-overlays and liposome-sedimentation assays, the fragments of ATM2 and VIII-B bind anionic phospholipids. Small polybasic regions at the extreme C-termini were sufficient for lipid-binding of the respective protein fragments. When expressed in tobacco pollen tubes, a fluorescence-tagged variant of ATM2 lacking its lipid-binding region displayed substantially reduced plasma membrane association. The data indicate that class VIII-myosins may facilitate actin-plasma membrane attachment through interaction with anionic phospholipids, mediated by polybasic C-terminal lipid-binding domains.

Keywords: Actin; Anionic phospholipids; Attachment; Cytoskeleton; Phosphoinositides; Plasma membrane.