Molecular mechanisms for organizing the neuronal cytoskeleton.
Mukhopadhyay R, Kumar S, Hoh JH
BioEssays (2004)
Category: cytoskeleton, neurobiology ¤ Added: Aug 22, 2004 ¤ Rating: ◊◊
Neurofilaments and microtubules are important components of the neuronal cytoskeleton. In axons or dendrites, these filaments are aligned in parallel arrays, and separated from one another by nonrandom distances. This distinctive organization has been attributed to cross bridges formed by NF side arms or microtubuleassociated proteins. We recently proposed a polymerbrush- based mechanism for regulating interactions between neurofilaments and between microtubules. In this model, the side arms of neurofilaments and the projection domains of microtubule-associated proteins are highly unstructured and exert long-range repulsive forces that are largely entropic in origin; these forces then act to organize the cytoskeleton in axons and dendrites. Here,wereview the biochemical, biophysical, genetic and cell biological data for the polymer-brush and crossbridging models. We explore how the data traditionally used to support cross bridging may be reconciled with a polymer-brush mechanism and compare the implications of recent experimental insights into axonal transport and physiology for each model.