Structure–function analyses of a keratin heterotypic complex identify specific keratin regions involved in intermediate filament assembly

Abstract

SUMMARYIntermediate filaments (IFs) provide vital mechanical support in a broad array of cell types. Interference with this role causes cell fragility and accounts for a large number of human diseases. Gaining an understanding IF structure is paramount to understanding their function and designing therapeutic agents for relevant diseases. Here, we report the 2.6 Å resolution crystal structure of a complex of interacting 2B domains of keratin 5 (K5) and K14. K5 and K14 form a long-range, left-handle coiled coil, with participating α-helices aligned in parallel and in register. Follow-up mutagenesis revealed that specific contacts between interacting 2B domains play a crucial role during 10-nm IF assembly, likely at the step of octamer–octamer association. The resulting structural model represents the first atomic-resolution visualization of 2B–2B interactions consistent with the A22dimer alignment and provide insight into the defects introduced by mutations in IF genes associated with human skin diseases.