Abstract
The actin cytoskeleton is of profound importance to cell shape, division, and intracellular force generation. Profilins bind to globular (G-)actin and regulate actin filament formation. Although profilins are well-established actin regulators, the distinct roles of the dominant profilin, profilin 1 (PFN1), versus the less abundant profilin 2 (PFN2) remain enigmatic. In this study, we use interaction proteomics to discover that PFN2 is an interaction partner of the actin N-terminal acetyltransferase NAA80, and further confirm this by analytical ultracentrifugation. Enzyme assays with NAA80 and different profilins demonstrate that PFN2 binding specifically increases the intrinsic catalytic activity of NAA80. NAA80 binds PFN2 through a proline-rich loop, deletion of which abrogates PFN2 binding. Small-angle X-ray scattering shows that NAA80, actin, and PFN2 form a ternary complex and that NAA80 has partly disordered regions in the N-terminus and the proline-rich loop, the latter of which is partly ordered upon PFN2 binding. Furthermore, binding of PFN2 to NAA80 via the proline-rich loop promotes binding between the globular domains of actin and NAA80, and thus acetylation of actin. However, the majority of cellular NAA80 is stably bound to PFN2 and not to actin, and we propose that this complex acetylates G-actin before it is incorporated into filaments. In conclusion, we reveal a functionally specific role of PFN2 as a stable interactor and regulator of the actin N-terminal acetyltransferase NAA80, and establish the modus operandi for NAA80-mediated actin N-terminal acetylation, a modification with a major impact on cytoskeletal dynamics.
Highlights
The actin cytoskeleton is of profound importance to cell shape, division, and intracellular force generation
This confirmed that both profilin 2 (PFN2) isoforms are present in HeLa and HAP1 cells, and that they both interact with NAA80
Does the abrogation of PFN2 binding mean that the mutant NAA80 enzyme is unable to be potentiated by PFN2 in the same way as the full-length enzyme (Fig. 3)? We found that PFN2 is not able to increase the activity of NAA80DP123, consistent with the hypothesis that the polyproline stretch contains the NAA80-PFN2 interaction interface (Fig. 5A)
Summary
The actin cytoskeleton is of profound importance to cell shape, division, and intracellular force generation. To determine whether the cellular partner of NAA80, PFN2, can take part in similar intermolecular interactions, we performed SAXS on DN-NAA80 in complex with PFN2a and actin (Fig. 6A, Fig. S9, Table S5) and generated an ab initio model of the complex (Fig. 6B). We performed AUC experiments with PFN2, NAA80, and actin to define the dependence of the NAA80-PFN2 interaction in the formation of this ternary complex relevant for cellular actin Nt-
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