Ndel1, the mammalian homologue of the Aspergillus nidulans NudE, is emergently viewed as an integrator of the cytoskeleton. By regulating the dynamics of microtubules and assembly of neuronal intermediate filaments (IFs), Ndel1 promotes neurite outgrowth, neuronal migration, and cell integrity (1-6). To further understand the roles of Ndel1 in cytoskeletal dynamics, we performed a tandem affinity purification of Ndel1-interacting proteins. We isolated a novel Ndel1 molecular complex composed of the IF vimentin, the molecular motor dynein, the lissencephaly protein Lis1, and the cis-Golgi-associated protein ␣COP. Ndel1 promotes the interaction between Lis1, ␣COP, and the vimentin-dynein complex. The functional result of this complex is activation of dynein-mediated transport of vimentin. A loss of Ndel1 functions by RNA interference fails to incorporate Lis1/␣COP in the complex, reduces the transport of vimentin, and culminates in IF accumulations and altered neuritogenesis. Our findings reveal a novel regulatory mechanism of vimentin transport during neurite extension that may have implications in diseases featuring transport/trafficking defects and impaired regeneration.The cytoskeleton constitutes a highly organized structure formed by the interconnection of three filamentous networks (microtubules (MTs), 3 intermediate filaments (IFs), and microfilament) and their associated proteins (7-10). The dynamics of these networks regulate essential intracellular functions such as transport and trafficking and, therefore, impact on cell division, morphology, and integrity (7-10). Named according to their intermediate diameter (10 nm), IFs constitute the largest family of cytoskeletal proteins. Up to 60 genes encoding for IFs are expressed in a tissue-specific and spatio-temporal manner in mammals (7,11,12). After synthesis in the cytoplasm, a fraction of soluble IF proteins is rapidly incorporated into the polymeric filamentous network, referred to as the "insoluble" fraction (7, 12). In parallel, individual IF subunits, dimers, or small oligomers that constitute the "soluble" fraction translocate rapidly along MTs via molecular motors in structures termed particles (13,14). This model is particularly relevant for the assembly of the IF vimentin (15, 16) and more controversial in the case of neuronal IFs (NFs) (17-19).The neurofilament proteins (NF-L, NF-M, and NF-H) are the most abundant IFs in mature central nervous system neurons (12). We recently demonstrated that Ndel1, the mammalian homologue of the Aspergillus nidulans NudE, a protein implicated in nuclear distribution during hyphal growth, binds directly to the key subunit NF-L, thereby regulating NF assembly (5). Ndel1 also interacts with the Disrupted-in-Schizophrenia protein 1 (DISC1) to regulate MT dynamics during neurite outgrowth in neuroblastoma PC-12 cells and during neuronal migration in the developing cortex. Interestingly, Ndel1 associates with the molecular motors dynein/dynactin (20 -22), and numerous independent reports documented the dynein tran...
