Direct demonstration of the endocytic function of caveolae by a cell-free assay

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Direct demonstration of the endocytic function of caveolae by a cell-free assay

A Gilbert, JP Paccaud, M Foti, G Porcheron, J Balz and JL Carpentier
Department of Morphology, CMU, CH-1211 Geneva 4, Switzerland.

The endocytic function of caveolae was challenged by taking advantage of a cell-free assay directly measuring the detachment of receptor-containing vesicles from isolated plasma membranes. Plasma membranes from cultured cells surface-labeled with 125I-cholera toxin (segregating in caveolae) were isolated as described previously. Following incubation of these labeled membranes in the presence of nucleotide(s) and cytosol, a significant proportion of the initially membrane-associated radioactivity was released into the incubation medium in sedimentable form (14*10(6 )g). Results of biochemical, morphological, and fractionation analysis of the material containing the released radioactivity directly demonstrated that caveolae are plasma membrane domains involved in an endocytic process and resulting in the formation of caveolae-derived vesicles. In addition, these studies allowed a direct comparison of caveolae- and clathrin-coated pit-mediated endocytosis and reveal that these two processes diverge in terms of kinetics, cytosol and nucleotide requirements as well as in terms of the density and size of the endocytic vesicles formed.

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				P. Sens and M. S. Turner Theoretical Model for the Formation of Caveolae and Similar Membrane Invaginations Biophys. J., April 1, 2004; 86(4): 2049 - 2057. [Abstract] [Full Text] [PDF]

				D. I. Mundy, T. Machleidt, Y.-s. Ying, R. G. W. Anderson, and G. S. Bloom Dual control of caveolar membrane traffic by microtubules and the actin cytoskeleton J. Cell Sci., November 15, 2002; 115(22): 4327 - 4339. [Abstract] [Full Text] [PDF]

				M. L. Torgersen, G. Skretting, B. van Deurs, and K. Sandvig Internalization of cholera toxin by different endocytic mechanisms J. Cell Sci., March 12, 2002; 114(20): 3737 - 3747. [Abstract] [Full Text] [PDF]

				L. Breuza, S. Corby, J.-P. Arsanto, M.-H. Delgrossi, P. Scheiffele, and A. Le Bivic The scaffolding domain of caveolin 2 is responsible for its Golgi localization in Caco-2 cells J. Cell Sci., January 12, 2002; 115(23): 4457 - 4467. [Abstract] [Full Text] [PDF]

				P. Thomsen, K. Roepstorff, M. Stahlhut, and B. van Deurs Caveolae Are Highly Immobile Plasma Membrane Microdomains, Which Are not Involved in Constitutive Endocytic Trafficking Mol. Biol. Cell, January 1, 2002; 13(1): 238 - 250. [Abstract] [Full Text] [PDF]

				A. Ros-Baro, C. Lopez-Iglesias, S. Peiro, D. Bellido, M. Palacin, A. Zorzano, and M. Camps Lipid rafts are required for GLUT4 internalization in adipose cells PNAS, September 26, 2001; (2001) 211341698. [Abstract] [Full Text] [PDF]

				P. Verkade, T. Harder, F. Lafont, and K. Simons Induction of Caveolae in the Apical Plasma Membrane of Madin-Darby Canine Kidney Cells J. Cell Biol., February 21, 2000; 148(4): 727 - 740. [Abstract] [Full Text] [PDF]

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				A. Pol, A. Lu, M. Pons, S. Peiro, and C. Enrich Epidermal Growth Factor-mediated Caveolin Recruitment to Early Endosomes and MAPK Activation. ROLE OF CHOLESTEROL AND ACTIN CYTOSKELETON J. Biol. Chem., September 22, 2000; 275(39): 30566 - 30572. [Abstract] [Full Text] [PDF]