The Skap-hom Dimerization and PH Domains Comprise a 3′-Phosphoinositide-Gated Molecular Switch
Copyright policy )The Skap-hom Dimerization and PH Domains Comprise a 3′-Phosphoinositide-Gated Molecular Switch
PH domains, by binding to phosphoinositides, often serve as membrane-targeting modules. Using crystallographic, biochemical, and cell biological approaches, we have uncovered a mechanism that the integrin-signaling adaptor Skap-hom uses to mediate cytoskeletal interactions. Skap-hom is a homodimer containing an N-terminal four-helix bundle dimerization domain, against which its two PH domains pack in a conformation incompatible with phosphoinositide binding. The isolated PH domains bind PI[3,4,5]P(3), and mutations targeting the dimerization domain or the PH domain's PI[3,4,5]P(3)-binding pocket prevent Skap-hom localization to ruffles. Targeting is retained when the PH domain is deleted or by combined mutation of the PI[3,4,5]P(3)-binding pocket and the PH/dimerization domain interface. Thus, the dimerization and PH domain form a PI[3,4,5]P(3)-responsive molecular switch that controls Skap-hom function.
- Harvard University United States
- Dana-Farber Cancer Institute United States
- Beth Israel Deaconess Medical Center United States
Mice, Knockout, Models, Molecular, Sequence Homology, Amino Acid, Protein Conformation, Green Fluorescent Proteins, Molecular Sequence Data, Cell Biology, Phosphatidylinositols, Protein Structure, Secondary, Protein Structure, Tertiary, Mice, Retroviridae, Models, Chemical, Transduction, Genetic, Animals, Point Mutation, Amino Acid Sequence, Molecular Biology, Dimerization, Adaptor Proteins, Signal Transducing, Protein Binding
Mice, Knockout, Models, Molecular, Sequence Homology, Amino Acid, Protein Conformation, Green Fluorescent Proteins, Molecular Sequence Data, Cell Biology, Phosphatidylinositols, Protein Structure, Secondary, Protein Structure, Tertiary, Mice, Retroviridae, Models, Chemical, Transduction, Genetic, Animals, Point Mutation, Amino Acid Sequence, Molecular Biology, Dimerization, Adaptor Proteins, Signal Transducing, Protein Binding
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