Abstract
PINCH is a recently identified adaptor protein that comprises an array of five LIM domains. PINCH functions through LIM-mediated protein-protein interactions that are involved in cell adhesion, growth, and differentiation. The LIM1 domain of PINCH interacts with integrin-linked kinase (ILK), thereby mediating focal adhesions via a specific integrin/ILK signaling pathway. We have solved the NMR structure of the PINCH LIM1 domain and characterized its binding to ILK. LIM1 contains two contiguous zinc fingers of the CCHC and CCCH types and adopts a global fold similar to that of functionally distinct LIM domains from cysteine-rich protein and cysteine-rich intestinal protein families with CCHC and CCCC zinc finger types. Gel-filtration and NMR experiments demonstrated a 1:1 complex between PINCH LIM1 and the ankyrin repeat domain of ILK. A chemical shift mapping experiment identified regions in PINCH LIM1 that are important for interaction with ILK. Comparison of surface features between PINCH LIM1 and other functionally different LIM domains indicated that the LIM motif might have a highly variable mode in recognizing various target proteins.
Highlights
PINCH is a recently identified adaptor protein that comprises an array of five LIM domains
The conserved tetrahedral zinc coordination and hydrophobic core appear to determine the overall fold of LIM domains, whereas other variable regions in the domains may confer the specificities for binding diverse target proteins
PINCH interacts with a membrane-proximal integrin-linked kinase (ILK), which colocalizes with 1-integrin in the focal adhesion plaques [16, 17]
Summary
PINCH is a recently identified adaptor protein that comprises an array of five LIM domains. We have solved the NMR structure of the PINCH LIM1 domain and characterized its binding to ILK.
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