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Clathrin-mediated endocytosis (CME) involves spatially and temporally restricted molecular dynamics.
Although protein kinases and the actin cytoskeleton contribute to the process, whether and how
functions of kinases and actin are integrated remains unknown. Here, we demonstrate that neural
Wiskott-Aldrich syndrome protein (N-WASP) and protein kinase CK2 form a complex and localize on
clathrin-coated vesicles (CCVs). N-WASP binds to and is phosphorylated by CK2, thereby reducing the
kinase activity of CK2. By contrast, N-WASP-promoted actin polymerization is decreased upon both
phosphorylation and binding of CK2. Knockdown of N-WASP and CK2, alone or in combination, results
in impaired endocytosis of epidermal growth factor (EGF) and increased cell-surface levels of EGF
receptor (EGFR). In order to rescue the phenotype of N-WASP-CK2 knockdown cells, both N-WASP and
CK2 activities and abilities to assemble in a complex are required. In summary, this study shows that the
N-WASP-CK2 complex integrates in a single circuit different activities contributing to CME of EGFR and
that the interplay between the two proteins optimizes this process.