Pushed to the edge: hundreds of Myosin 10s pack into filopodia and could cause traffic jams on actin

Abstract

AbstractMyosin 10 (Myo10) is a vertebrate-specific motor protein well known for its role in filopodia formation. Although Myo10-driven filopodial dynamics have been characterized, there is no information about the numbers of Myo10 in filopodia. To better understand molecular stoichiometries and packing restraints in filopodia, we measured Myo10 abundance in these structures. Here we combined SDS-PAGE analysis with epifluorescence microscopy to quantitate HaloTag-labeled Myo10 in U2OS cells. About 6% of total intracellular Myo10 localizes to filopodia, where it tends to be enriched at opposite ends of the cell. Hundreds of Myo10 are found in a typical filopodium, and their distribution across filopodia is log-normal. Some filopodial tips even contain more Myo10 than accessible binding sites on the actin filament bundle. Our estimates of Myo10 molecules in filopodia provide insight into the physics of packing Myo10, its cargo, and other filopodia-associated proteins in narrow membrane deformations in addition to the numbers of Myo10 required for filopodia initiation. Our protocol provides a framework for future work analyzing Myo10 abundance and distribution upon perturbation.