Neurofilament phosphorylation: a new look at regulation and function

Abstract

Dynamic remodeling of cytoskeleton architecture is necessary for axonal growth and guidance, signal transduction and other fundamental aspects of neuron function. Protein phosphorylation plays a key part in these remodeling processes. Since neurofilaments are major cytoskeletal constituents and are among the most highly phosphorylated neuronal proteins, the control of their behavior serves as a possible model for understanding how phosphorylation regulates the many other phosphoproteins in the cytoskeleton. Recent studies show that neurofilament protein subunits are phosphorylated on both their amino-terminal head domains and carboxy-terminal tails by different protein kinases. This review considers the implications of this complex regulation for neurofilament function in normal neurons and in disease states characterized by neurofibrillary pathology.