We previously reported that vimentin, GFAP, and desmin (type Ill intermediate filament [IF] proteins) are phosphorylated by CDK1, Aurora-B, and Rho-kinase. This phosphorylation is critical for efficient separation of these IFs and completion of cytokinesis. Keratin 5 (K5) and K14 form a heterodimer, which constitutes IF network in basal layer cells of stratified squamous epithelia. Here, we report that the solubility of K5/14 increased in mitosis. The in vitro assays revealed that three mitotic kinases phosphorylate K5 more than K14. We then identified Thr23/Thr144, Ser30, and Thr159 on murine K5 as major phosphorylation'sites for CDK1, Aurbra-B, and Rho-kinase, respectively. Using site- and phosphorylationstate-specific antibodies, we demonstrated that K5-Thr23 was phosphorylated in entire cytoplasm from prometaphase to metaphase, whereas K5-Ser30 phosphorylation occurred specifically at the cleavage furrow from anaphase to telophase. Efficient K5/K14-IF separation was impaired by K5 mutations at the sites phosphorylated by these mitotic "kinases. K5-Thr23 phosphorylation was widely detected in dividing K5-positive cells of murine individuals. These results suggested that mitotic reorganization of K5/K14-IF network is governed largely through K5 phosphorylation by CDK1, Aurora-B, and Rho-kinase. (C) 2018 The Authors. Published by Elsevier Inc. This is an open access article under the CC BY license.