Mutually Exclusive Cytoplasmic Dynein Regulation by NudE-Lis1 and Dynactin

Cytoplasmic dynein is responsible for a wide range of cellular roles. How this single motor protein performs so many functions has remained a major outstanding question for many years. Part of the answer is thought to lie in the diversity of dynein regulators, but how the effects of these factors are coordinated in vivo remains unexplored. We previously found NudE to bind dynein through its light chain 8 (LC8) and intermediate chain (IC) subunits (1), the latter of which also mediates the dynein-dynactin interaction (2). We report here that NudE and dynactin bind to a common region within the IC, and compete for this site. We find LC8 to bind to a novel sequence within NudE, without detectably affecting the dynein-NudE interaction. We further find that commonly used dynein inhibitory reagents have broad effects on the interaction of dynein with its regulatory factors. Together these results reveal an unanticipated mechanism for preventing dual regulation of individual dynein molecules, and identify the IC as a nexus for regulatory interactions within the dynein complex. Background: Cytoplasmic dynein performs a great variety of cellular functions using a diversity of regulators. Results: NudE and dynactin compete for a common site within the dynein complex. Conclusion: This mechanism prevents dual regulation by dynactin and LIS1 and suggests a major new mode of regulatory control. Significance: This is the first insight into coordination of cytoplasmic dynein regulators.