Clathrin Light Chain: Importance of the Conserved Carboxy Terminal Domain to Function in Living Cells

Clathrin triskelions assemble into coats capable of packaging membrane and receptors for transport to intracellular destinations. A triskelion is formed from three heavy chains bound to three light chains. All clathrin light chains (clc) contain an acidic amino terminal domain, a central coiled segm...

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Bibliographic Details
Published in:Traffic (Copenhagen, Denmark) Denmark), 2006-07, Vol.7 (7), p.824-832
Main Authors: Wang, Jingshan, Wang, Yanqin, O'Halloran, Theresa J.
Format: Article
Language:English
Subjects:
Animals
Cell Line
Cell Membrane - metabolism
Cell Survival
Clathrin Light Chains - chemistry
Clathrin Light Chains - genetics
Clathrin Light Chains - metabolism
coated vesicles
Conserved Sequence
Cytokinesis
Dictyostelium
Gene Expression Regulation
membrane traffic
Peptide Fragments - genetics
Peptide Fragments - metabolism
Protein Structure, Tertiary
Protein Transport
triskelion
vesicle
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Summary:Clathrin triskelions assemble into coats capable of packaging membrane and receptors for transport to intracellular destinations. A triskelion is formed from three heavy chains bound to three light chains. All clathrin light chains (clc) contain an acidic amino terminal domain, a central coiled segment, and a carboxy terminal domain conserved in amino acid sequence. To assess their functional contribution in vivo, we expressed tagged segments of the Dictyostelium clcA in clc‐minus Dictyostelium (clc null) cells. We examined the ability of these clcA fragments to rescue clathrin phenotypic deficiencies, to cluster into punctae on membranes, and to bind to the heavy chain. When expressed in clc null cells, a clcA fragment containing the amino terminal domain and the central coiled domain bound heavy chain but was dispensable for clathrin function. Instead, the carboxy terminal domain of clcA was a critical determinant for association with punctae, for clathrin function and for robust binding to the heavy chain. A 70 amino acid carboxy terminal fragment was necessary and sufficient for full function, and for localization into punctae on intracellular membranes. A shorter 49 amino acid carboxy terminal fragment could distribute into punctae but failed to rescue developmental deficiencies. These results reveal the importance of the carboxy terminal domain of the light chain in vivo.
ISSN:1398-9219
1600-0854
DOI:10.1111/j.1600-0854.2006.00438.x