Death-receptor activation halts clathrin-dependent endocytosis
Publication date
2006-07-05
Authors
Austin, C.D.
Lawrence, D.A.
Peden, A.E.
Varfolomeev, E.E.
Totpal, K.
De Mazière, A.M.
Klumperman, J.
Arnott, D.
Pham, V.
Scheller, R.H.
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Document Type
Article
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Abstract
Endocytosis is crucial for various aspects of cell homeostasis. Here,
we show that proapoptotic death receptors (DRs) trigger selective
destruction of the clathrin-dependent endocytosis machinery. DR
stimulation induced rapid, caspase-mediated cleavage of key
clathrin-pathway components, halting cellular uptake of the classic
cargo protein transferrin. DR-proximal initiator caspases cleaved
the clathrin adaptor subunit AP2 between functionally distinct
domains, whereas effector caspases processed clathrin’s heavy
chain. DR5 underwent ligand-induced, clathrin-mediated endocytosis,
suggesting that internalization of DR signaling complexes
facilitates clathrin-pathway targeting by caspases. An endocytosisblocking,
temperature-sensitive dynamin-1 mutant attenuated DR
internalization, enhanced caspase stimulation downstream of DRs,
and increased apoptosis. Thus, DR-triggered caspase activity disrupts
clathrin-dependent endocytosis, leading to amplification of
programmed cell death.