Alexandre Benmerah scite author profile

Clathrin-dependent endocytosis has long been presented as the only efficient mechanism by which transmembrane receptors are internalized. We selectively blocked this process using dominant-negative mutants of Eps15 and showed that clathrin-mediated endocytosis of transferrin was inhibited, while endocytosis of interleukin 2 (IL2) receptors proceeded normally. Ultrastructural and biochemical experiments showed that clathrin-independent endocytosis of IL2 receptors exists constitutively in lymphocytes and is coupled to their association with detergent-resistant membrane domains. Finally, clathrin-independent endocytosis requires dynamin and is specifically regulated by Rho family GTPases. These results define novel properties of receptor-mediated endocytosis and establish that the IL2 receptor is efficiently internalized through this clathrin-independent pathway.

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The ciliary pocket: an endocytic membrane domain at the base of primary and motile cilia

Mollà-Herman

et al. 2010

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SummaryCilia and flagella are eukaryotic organelles involved in multiple cellular functions. The primary cilium is generally non motile and found in numerous vertebrate cell types where it controls key signalling pathways. Despite a common architecture, ultrastructural data suggest some differences in their organisation. Here, we report the first detailed characterisation of the ciliary pocket, a depression of the plasma membrane in which the primary cilium is rooted. This structure is found at low frequency in kidney epithelial cells (IMCD3) but is associated with virtually all primary cilia in retinal pigment epithelial cells (RPE1). Transmission and scanning electron microscopy, immunofluorescence analysis and videomicroscopy revealed that the ciliary pocket establishes closed links with the actinbased cytoskeleton and that it is enriched in active and dynamic clathrin-coated pits. The existence of the ciliary pocket was confirmed in mouse tissues bearing primary cilia (cumulus), as well as motile cilia and flagella (ependymal cells and spermatids). The ciliary pocket shares striking morphological and functional similarities with the flagellar pocket of Trypanosomatids, a trafficking-specialised membrane domain at the base of the flagellum. Our data therefore highlight the conserved role of membrane trafficking in the vicinity of cilia.

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Alexandre Benmerah

Interleukin 2 Receptors and Detergent-Resistant Membrane Domains Define a Clathrin-Independent Endocytic Pathway

The ciliary pocket: an endocytic membrane domain at the base of primary and motile cilia

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