Profilin2a‐phosphorylation as a regulatory mechanism for actin dynamics

March 24, 2020


Profilin2a‐phosphorylation as a regulatory mechanism for actin dynamics


Lisa Marie Walter, Peter Franz, Robert Lindner, Georgios Tsiavaliaris, Niko Hensel, Peter Claus




The FASEB Journal


Profilin is a major regulator of actin dynamics in multiple specific processes localized in different cellular compartments. This specificity is not only meditated by its binding to actin but also its interaction with phospholipids such as phosphatidylinositol (4,5)‐bisphosphate (PIP2) at the membrane and a plethora of proteins containing poly‐L‐proline (PLP) stretches. These interactions are fine‐tuned by posttranslational modifications such as phosphorylation. Several phospho‐sites have already been identified for profilin1, the ubiquitously expressed isoform. However, little is known about the phosphorylation of profilin2a. Profilin2a is a neuronal isoform important for synapse function. Here, we identified several putative profilin2a phospho‐sites in silico and tested recombinant phospho‐mimetics with regard to their actin‐, PLP‐, and PIP2‐binding properties. Moreover, we assessed their impact on actin dynamics employing a pyrene‐actin polymerization assay. Results indicate that distinct phospho‐sites modulate specific profilin2a functions. We could identify a molecular switch site at serine residue 71 which completely abrogated actin binding—as well as other sites important for fine‐tuning of different functions, for example, tyrosine 29 for PLP binding. Our findings suggest that differential profilin2a phosphorylation is a sensitive mechanism for regulating its neuronal functions. Moreover, the dysregulation of profilin2a phosphorylation may contribute to neurodegeneration.




Fluorescence, Kinetics, Ligand binding, Protein structure, Biochemistry