Abstract
Profilin is an essential regulator of actin and microtubule dynamics and therefore a critical control point for the normal division, motility, and morphology of cells. Most studies of profilin have focused on biochemical investigations using purified protein because high cellular concentrations present challenges for conventional imaging modalities. In addition, past studies that employed direct labeling or conventional fusion protein strategies compromised different facets of profilin function. We engineered two versions of tagged profilin that retain native activities with respect to phosphoinositide lipids, actin monomers, formin-mediated actin assembly, and microtubule polymerization. mApple-profilin-1 directly binds to dimers of tubulin (kD = 1.7 µM) and the microtubule lattice (kD = 10 µM) to stimulate microtubule assembly. In cells, Halo-tagged profilin-1 fully rescues profilin-1(-/-) cells from knockout-induced perturbations to cell shape, actin filament architecture, and microtubule arrays. In cells expressing Halo-profilin, we visualized a subset of individual molecules of profilin-1 by titrating fluorescent Halo-ligands. Further, we combined this imaging approach with specific function-disrupting point-mutants in profilin to visualize dynamic profilin associated with microtubules in live-cells. Thus, these tagged profilins are reliable tools for studying the dynamic interactions of profilin with actin or microtubules in live-cell or in vitro applications.
Publisher
Cold Spring Harbor Laboratory
Cited by
6 articles.
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