Abstract
Formin proteins are actin assembly factors that accelerate filament nucleation then remain on the elongating barbed end and modulate filament elongation. The formin homology 2 (FH2) domain is central to these activities, but recent work has suggested that additional sequences enhance FH2 domain function. Here we show that the C-terminal 76 amino acids of the formin FMNL3 have a dramatic effect on the ability of the FH2 domain to accelerate actin assembly. This C-terminal region contains a WASp homology 2 (WH2)-like sequence that binds actin monomers in a manner that is competitive with other WH2 domains and with profilin. In addition, the C terminus binds filament barbed ends. As a monomer, the FMNL3 C terminus inhibits actin polymerization and slows barbed end elongation with moderate affinity. As a dimer, the C terminus accelerates actin polymerization from monomers and displays high affinity inhibition of barbed end elongation. These properties are not common to all formin C termini, as those of mDia1 and INF2 do not behave similarly. Interestingly, mutation of two aliphatic residues, which blocks high affinity actin binding by the WH2-like sequence, has no effect on the ability of the C terminus to enhance FH2-mediated polymerization. However, mutation of three successive basic residues at the C terminus of the WH2-like sequence compromises polymerization enhancement. These results illustrate that the C termini of formins are highly diverse in their interactions with actin.
Highlights
The mammalian formin FMNL3 influences actin dynamics and promotes filopodia formation
The formin homology 2 (FH2) domain is central to these activities, but recent work has suggested that additional sequences enhance FH2 domain function
In this study we find that the addition of the C terminus of FMNL3 dramatically accelerates actin polymerization by the FH2 domain as well as increases its efficiency of filament bundling and severing
Summary
The mammalian formin FMNL3 influences actin dynamics and promotes filopodia formation. Results: The C terminus of FMNL3 synergizes with the FH2 domain to accelerate actin polymerization, binds actin monomers, and enhances filament severing. Conclusion: The C terminus of FMNL3 contains a WH2-like sequence that binds filament barbed ends and monomers. We show that the C-terminal 76 amino acids of the formin FMNL3 have a dramatic effect on the ability of the FH2 domain to accelerate actin assembly This C-terminal region contains a WASp homology 2 (WH2)-like sequence that binds actin monomers in a manner that is competitive with other WH2 domains and with profilin. The C terminus accelerates actin polymerization from monomers and displays high affinity inhibition of barbed end elongation These properties are not common to all formin C termini, as those of mDia and INF2 do not behave . The C termini of mDia and INF2 do not display barbed end binding abilities
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