Litcius/Paper detail

Fascin-induced actin protrusions are suppressed by dendritic networks in giant unilamellar vesicles

Nadab Wubshet, Yashar Bashirzadeh, Allen P. Liu

2021Molecular Biology of the Cell27 citationsDOIOpen Access PDF

Abstract

The interactions between actin networks and cell membrane are immensely important for eukaryotic cell functions including cell shape changes, motility, polarity establishment, and adhesion. Actin-binding proteins are known to compete and cooperate using a finite amount of actin monomers to form distinct actin networks. How actin-bundling protein fascin and actin-branching protein Arp2/3 complex compete to remodel membranes is not entirely clear. To investigate fascin- and Arp2/3-mediated actin network remodeling, we applied a reconstitution approach encapsulating bundled and dendritic actin networks inside giant unilamellar vesicles (GUVs). Independently reconstituted, membrane-bound Arp2/3 nucleation forms an actin cortex in GUVs, whereas fascin mediates formation of actin bundles that protrude out of GUVs. Coencapsulating both fascin and Arp2/3 complex leads to polarized dendritic aggregates and significantly reduces membrane protrusions, irrespective of whether the dendritic network is membrane bound or not. However, reducing Arp2/3 complex while increasing fascin restores membrane protrusion. Such changes in network assembly and the subsequent interplay with membrane can be attributed to competition between fascin and Arp2/3 complex to utilize a finite pool of actin.

Topics & Concepts

FascinCell biologyActin remodelingBiologyActin remodeling of neuronsActinMDia1Actin-binding proteinVesicleMicrofilamentBiophysicsMembraneActin cytoskeletonCytoskeletonCellBiochemistryCellular Mechanics and InteractionsCellular transport and secretionAdvanced Fluorescence Microscopy Techniques