TY - JOUR
T1 - Dynamic Interactions between Clathrin and Locally Structured Elements in a Disordered Protein Mediate Clathrin Lattice Assembly
AU - Zhuo, Yue
AU - Ilangovan, Udayar
AU - Schirf, Virgil
AU - Demeler, Borries
AU - Sousa, Rui J
AU - Hinck, Andrew P
AU - Lafer, Eileen M.
N1 - Funding Information:
This work was supported by National Institutes of Health–National Institute of Neurological Disorders and Stroke grant NS029051 to E.M.L. We also gratefully acknowledge the support of the UTHSCSA Center for Biomolecular NMR Spectroscopy and the UTHSCSA Center for Macromolecular Interactions, both of which are supported by the Cancer Therapy and Research Center through the National Institutes of Health–National Cancer Institute P30 award CA054174 , as well as by Texas State funds provided through the Office of the Vice President for Research of the UTHSCSA. We would also like to thank Dr. Neal Robinson for helpful discussions of the work.
PY - 2010/11/26
Y1 - 2010/11/26
N2 - Assembly of clathrin lattices is mediated by assembly/adaptor proteins that contain domains that bind lipids or membrane-bound cargo proteins and clathrin binding domains (CBDs) that recruit clathrin. Here, we characterize the interaction between clathrin and a large fragment of the CBD of the clathrin assembly protein AP180. Mutational, NMR chemical shift, and analytical ultracentrifugation analyses allowed us to precisely define two clathrin binding sites within this fragment, each of which is found to bind weakly to the N-terminal domain of the clathrin heavy chain (TD). The locations of the two clathrin binding sites are consistent with predictions from sequence alignments of previously identified clathrin binding elements and, by extension, indicate that the complete AP180 CBD contains ̃ 12 degenerate repeats, each containing a single clathrin binding site. Sequence and circular dichroism analyses have indicated that the AP180 CBD is predominantly unstructured and our NMR analyses confirm that this is largely the case for the AP180 fragment characterized here. Unexpectedly, unlike the many proteins that undergo binding-coupled folding upon interaction with their binding partners, the AP180 fragment is similarly unstructured in its bound and free states. Instead, we find that this fragment exhibits localized β-turn-like structures at the two clathrin binding sites both when free and when bound to clathrin. These observations are incorporated into a model in which weak binding by multiple, pre-structured clathrin binding elements regularly dispersed throughout a largely unstructured CBD allows efficient recruitment of clathrin to endocytic sites and dynamic assembly of the clathrin lattice.
AB - Assembly of clathrin lattices is mediated by assembly/adaptor proteins that contain domains that bind lipids or membrane-bound cargo proteins and clathrin binding domains (CBDs) that recruit clathrin. Here, we characterize the interaction between clathrin and a large fragment of the CBD of the clathrin assembly protein AP180. Mutational, NMR chemical shift, and analytical ultracentrifugation analyses allowed us to precisely define two clathrin binding sites within this fragment, each of which is found to bind weakly to the N-terminal domain of the clathrin heavy chain (TD). The locations of the two clathrin binding sites are consistent with predictions from sequence alignments of previously identified clathrin binding elements and, by extension, indicate that the complete AP180 CBD contains ̃ 12 degenerate repeats, each containing a single clathrin binding site. Sequence and circular dichroism analyses have indicated that the AP180 CBD is predominantly unstructured and our NMR analyses confirm that this is largely the case for the AP180 fragment characterized here. Unexpectedly, unlike the many proteins that undergo binding-coupled folding upon interaction with their binding partners, the AP180 fragment is similarly unstructured in its bound and free states. Instead, we find that this fragment exhibits localized β-turn-like structures at the two clathrin binding sites both when free and when bound to clathrin. These observations are incorporated into a model in which weak binding by multiple, pre-structured clathrin binding elements regularly dispersed throughout a largely unstructured CBD allows efficient recruitment of clathrin to endocytic sites and dynamic assembly of the clathrin lattice.
KW - AP180
KW - Clathrin
KW - Endocytosis
KW - Intrinsically disordered protein
KW - Intrinsically unstructured protein
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U2 - 10.1016/j.jmb.2010.09.044
DO - 10.1016/j.jmb.2010.09.044
M3 - Article
C2 - 20875424
AN - SCOPUS:78349308634
SN - 0022-2836
VL - 404
SP - 274
EP - 290
JO - Journal of Molecular Biology
JF - Journal of Molecular Biology
IS - 2
ER -