Signal transducing molecules and glycosyl-phosphatidylinositol-linked proteins form a caveolin-rich insoluble complex in MDCK cells

doi:10.1083/jcb.122.4.789

This Article

Full Text (PDF, 5070K)

Alert me when this article is cited

Citation Map

Services

Email this article

Similar articles in this journal

Similar articles in PubMed

Alert me to new content in the JCB

Download to citation manager

Citing Articles

Citing Articles via HighWire

Citing Articles via CrossRef

Citing Articles via Google Scholar

Google Scholar

Articles by Sargiacomo, M.

Articles by Lisanti, M. P.

Search for Related Content

PubMed

PubMed Citation

Articles by Sargiacomo, M.

Articles by Lisanti, M. P.

Pubmed/NCBI databases

Gene	GEO Profiles
HomoloGene	Protein
UniGene
Substance via MeSH

Social Bookmarking

What's this?

ARTICLES

Signal transducing molecules and glycosyl-phosphatidylinositol-linked proteins form a caveolin-rich insoluble complex in MDCK cells

M Sargiacomo, M Sudol, Z Tang and MP Lisanti
Whitehead Institute for Biomedical Research, Cambridge, Massachusetts 02142-1479.

GPI-linked protein molecules become Triton-insoluble during polarized sorting to the apical cell surface of epithelial cells. These insoluble complexes, enriched in cholesterol, glycolipids, and GPI-linked proteins, have been isolated by flotation on sucrose density gradients and are thought to contain the putative GPI-sorting machinery. As the cellular origin and molecular protein components of this complex remain unknown, we have begun to characterize these low-density insoluble complexes isolated from MDCK cells. We find that these complexes, which represent 0.4-0.8% of the plasma membrane, ultrastructurally resemble caveolae and are over 150-fold enriched in a model GPI-anchored protein and caveolin, a caveolar marker protein. However, they exclude many other plasma membrane associated molecules and organelle-specific marker enzymes, suggesting that they represent microdomains of the plasma membrane. In addition to caveolin, these insoluble complexes contain a subset of hydrophobic plasma membrane proteins and cytoplasmically-oriented signaling molecules, including: (a) GTP- binding proteins--both small and heterotrimeric; (b) annex II--an apical calcium-regulated phospholipid binding protein with a demonstrated role in exocytic fusion events; (c) c-Yes--an apically localized member of the Src family of non-receptor type protein- tyrosine kinases; and (d) an unidentified serine-kinase activity. As we demonstrate that caveolin is both a transmembrane molecule and a major phospho-acceptor component of these complexes, we propose that caveolin could function as a transmembrane adaptor molecule that couples luminal GPI-linked proteins with cytoplasmically oriented signaling molecules during GPI-membrane trafficking or GPI-mediated signal transduction events. In addition, our results have implications for understanding v- Src transformation and the actions of cholera and pertussis toxins on hetero-trimeric G proteins.
Add to CiteULike CiteULike Add to Complore Complore Add to Connotea Connotea Add to Del.icio.us Del.icio.us Add to Digg Digg Facebook Add to Reddit Reddit Add to Technorati Technorati Twitter What's this?

This article has been cited by other articles:

Zheng, Y. Z., Foster, L. J. (2009). Contributions of quantitative proteomics to understanding membrane microdomains. J. Lipid Res. 50: 1976-1985 [Abstract] [Full Text]
Gonzalez-Munoz, E., Lopez-Iglesias, C., Calvo, M., Palacin, M., Zorzano, A., Camps, M. (2009). Caveolin-1 Loss of Function Accelerates Glucose Transporter 4 and Insulin Receptor Degradation in 3T3-L1 Adipocytes. Endocrinology 150: 3493-3502 [Abstract] [Full Text]
Riquier, A. D. M., Lee, D. H., McDonough, A. A. (2009). Renal NHE3 and NaPi2 partition into distinct membrane domains. Am. J. Physiol. Cell Physiol. 296: C900-C910 [Abstract] [Full Text]
Halls, M. L., van der Westhuizen, E. T., Wade, J. D., Evans, B. A., Bathgate, R. A. D., Summers, R. J. (2009). Relaxin Family Peptide Receptor (RXFP1) Coupling to G{alpha}i3 Involves the C-Terminal Arg752 and Localization within Membrane Raft Microdomains. Mol. Pharmacol. 75: 415-428 [Abstract] [Full Text]
Spadaro, F., Ramoni, C., Mezzanzanica, D., Miotti, S., Alberti, P., Cecchetti, S., Iorio, E., Dolo, V., Canevari, S., Podo, F. (2008). Phosphatidylcholine-Specific Phospholipase C Activation in Epithelial Ovarian Cancer Cells. Cancer Res. 68: 6541-6549 [Abstract] [Full Text]
Zheng, H., Chu, J., Qiu, Y., Loh, H. H., Law, P.-Y. (2008). Agonist-selective signaling is determined by the receptor location within the membrane domains. Proc. Natl. Acad. Sci. USA 105: 9421-9426 [Abstract] [Full Text]
Maniatis, N. A., Shinin, V., Schraufnagel, D. E., Okada, S., Vogel, S. M., Malik, A. B., Minshall, R. D. (2008). Increased pulmonary vascular resistance and defective pulmonary artery filling in caveolin-1-/- mice. Am. J. Physiol. Lung Cell. Mol. Physiol. 294: L865-L873 [Abstract] [Full Text]
Langlois, S., Cowan, K. N., Shao, Q., Cowan, B. J., Laird, D. W. (2008). Caveolin-1 and -2 Interact with Connexin43 and Regulate Gap Junctional Intercellular Communication in Keratinocytes. Mol. Biol. Cell 19: 912-928 [Abstract] [Full Text]
Alioua, A., Lu, R., Kumar, Y., Eghbali, M., Kundu, P., Toro, L., Stefani, E. (2008). Slo1 Caveolin-binding Motif, a Mechanism of Caveolin-1-Slo1 Interaction Regulating Slo1 Surface Expression. J. Biol. Chem. 283: 4808-4817 [Abstract] [Full Text]
Padhan, K., Tanwar, C., Hussain, A., Hui, P. Y., Lee, M. Y., Cheung, C. Y., Peiris, J. S. M., Jameel, S. (2007). Severe acute respiratory syndrome coronavirus Orf3a protein interacts with caveolin. J. Gen. Virol. 88: 3067-3077 [Abstract] [Full Text]
Pilch, P. F., Souto, R. P., Liu, L., Jedrychowski, M. P., Berg, E. A., Costello, C. E., Gygi, S. P. (2007). Cellular spelunking: exploring adipocyte caveolae. J. Lipid Res. 48: 2103-2111 [Abstract] [Full Text]
Hitosugi, T., Sato, M., Sasaki, K., Umezawa, Y. (2007). Lipid Raft Specific Knockdown of Src Family Kinase Activity Inhibits Cell Adhesion and Cell Cycle Progression of Breast Cancer Cells. Cancer Res. 67: 8139-8148 [Abstract] [Full Text]
Limpert, A. S., Karlo, J. C., Landreth, G. E. (2007). Nerve Growth Factor Stimulates the Concentration of TrkA within Lipid Rafts and Extracellular Signal-Regulated Kinase Activation through c-Cbl-Associated Protein. Mol. Cell. Biol. 27: 5686-5698 [Abstract] [Full Text]
Raghu, H., Sharma-Walia, N., Veettil, M. V., Sadagopan, S., Caballero, A., Sivakumar, R., Varga, L., Bottero, V., Chandran, B. (2007). Lipid Rafts of Primary Endothelial Cells Are Essential for Kaposi's Sarcoma-Associated Herpesvirus/Human Herpesvirus 8-Induced Phosphatidylinositol 3-Kinase and RhoA-GTPases Critical for Microtubule Dynamics and Nuclear Delivery of Viral DNA but Dispensable for Binding and Entry. J. Virol. 81: 7941-7959 [Abstract] [Full Text]
Awasthi, V., Mandal, S. K., Papanna, V., Rao, L. V. M., Pendurthi, U. R. (2007). Modulation of Tissue Factor-Factor VIIa Signaling by Lipid Rafts and Caveolae. Arterioscler. Thromb. Vasc. Bio. 27: 1447-1455 [Abstract] [Full Text]
Shmuel, M., Nodel-Berner, E., Hyman, T., Rouvinski, A., Altschuler, Y. (2007). Caveolin 2 Regulates Endocytosis and Trafficking of the M1 Muscarinic Receptor in MDCK Epithelial Cells. Mol. Biol. Cell 18: 1570-1585 [Abstract] [Full Text]
Costa, M. J., Senou, M., Van Rode, F., Ruf, J., Capello, M., Dequanter, D., Lothaire, P., Dessy, C., Dumont, J. E., Many, M.-C., Van Sande, J. (2007). Reciprocal Negative Regulation between Thyrotropin/3',5'-Cyclic Adenosine Monophosphate-Mediated Proliferation and Caveolin-1 Expression in Human and Murine Thyrocytes. Mol. Endocrinol. 21: 921-932 [Abstract] [Full Text]
Sun, X.-H., Flynn, D. C., Castranova, V., Millecchia, L. L., Beardsley, A. R., Liu, J. (2007). Identification of a Novel Domain at the N Terminus of Caveolin-1 That Controls Rear Polarization of the Protein and Caveolae Formation. J. Biol. Chem. 282: 7232-7241 [Abstract] [Full Text]
Hunter, I., Nixon, G. F. (2006). Spatial Compartmentalization of Tumor Necrosis Factor (TNF) Receptor 1-dependent Signaling Pathways in Human Airway Smooth Muscle Cells: LIPID RAFTS ARE ESSENTIAL FOR TNF-{alpha}-MEDIATED ACTIVATION OF RhoA BUT DISPENSABLE FOR THE ACTIVATION OF THE NF-{kappa}B AND MAPK PATHWAYS. J. Biol. Chem. 281: 34705-34715 [Abstract] [Full Text]
Kai, M., Sakane, F., Jia, Y.-J., Imai, S.-i., Yasuda, S., Kanoh, H. (2006). Lipid Phosphate Phosphatases 1 and 3 Are Localized in Distinct Lipid Rafts. J Biochem 140: 677-686 [Abstract] [Full Text]
Hartung, A., Bitton-Worms, K., Rechtman, M. M., Wenzel, V., Boergermann, J. H., Hassel, S., Henis, Y. I., Knaus, P. (2006). Different Routes of Bone Morphogenic Protein (BMP) Receptor Endocytosis Influence BMP Signaling. Mol. Cell. Biol. 26: 7791-7805 [Abstract] [Full Text]
Zhao, H., Loh, H. H., Law, P. Y. (2006). Adenylyl Cyclase Superactivation Induced by Long-Term Treatment with Opioid Agonist Is Dependent on Receptor Localized within Lipid Rafts and Is Independent of Receptor Internalization. Mol. Pharmacol. 69: 1421-1432 [Abstract] [Full Text]
Parr, R. D., Storey, S. M., Mitchell, D. M., McIntosh, A. L., Zhou, M., Mir, K. D., Ball, J. M. (2006). The Rotavirus Enterotoxin NSP4 Directly Interacts with the Caveolar Structural Protein Caveolin-1. J. Virol. 80: 2842-2854 [Abstract] [Full Text]
Kasai, A., Shima, T., Okada, M. (2005). Role of Src family tyrosine kinases in the down-regulation of epidermal growth factor signaling in PC12 cells. GENES CELLS 10: 1175-1187 [Abstract] [Full Text]
Carro, E., Spuch, C., Trejo, J. L., Antequera, D., Torres-Aleman, I. (2005). Choroid Plexus Megalin Is Involved in Neuroprotection by Serum Insulin-Like Growth Factor I. J. Neurosci. 25: 10884-10893 [Abstract] [Full Text]
Eisensamer, B., Uhr, M., Meyr, S., Gimpl, G., Deiml, T., Rammes, G., Lambert, J. J., Zieglgansberger, W., Holsboer, F., Rupprecht, R. (2005). Antidepressants and Antipsychotic Drugs Colocalize with 5-HT3 Receptors in Raft-Like Domains. J. Neurosci. 25: 10198-10206 [Abstract] [Full Text]
Miotti, S., Tomassetti, A., Facetti, I., Sanna, E., Berno, V., Canevari, S. (2005). Simultaneous Expression of Caveolin-1 and E-Cadherin in Ovarian Carcinoma Cells Stabilizes Adherens Junctions through Inhibition of src-Related Kinases. Am. J. Pathol. 167: 1411-1427 [Abstract] [Full Text]
Hirsch, A. J., Medigeshi, G. R., Meyers, H. L., DeFilippis, V., Fruh, K., Briese, T., Lipkin, W. I., Nelson, J. A. (2005). The Src Family Kinase c-Yes Is Required for Maturation of West Nile Virus Particles. J. Virol. 79: 11943-11951 [Abstract] [Full Text]
Veluthakal, R., Chvyrkova, I., Tannous, M., McDonald, P., Amin, R., Hadden, T., Thurmond, D. C., Quon, M. J., Kowluru, A. (2005). Essential Role for Membrane Lipid Rafts in Interleukin-1{beta}-Induced Nitric Oxide Release From Insulin-Secreting Cells: Potential Regulation by Caveolin-1+. Diabetes 54: 2576-2585 [Abstract] [Full Text]
Tagawa, A., Mezzacasa, A., Hayer, A., Longatti, A., Pelkmans, L., Helenius, A. (2005). Assembly and trafficking of caveolar domains in the cell: caveolae as stable, cargo-triggered, vesicular transporters. JCB 170: 769-779 [Abstract] [Full Text]
Rudajev, V., Novotny, J., Hejnova, L., Milligan, G., Svoboda, P. (2005). Dominant Portion of Thyrotropin-Releasing Hormone Receptor Is Excluded from Lipid Domains. Detergent-Resistant and Detergent-Sensitive Pools of TRH Receptor and Gq{alpha}/G11{alpha} Protein. J Biochem 138: 111-125 [Abstract] [Full Text]
Macdonald, J. L., Pike, L. J. (2005). A simplified method for the preparation of detergent-free lipid rafts. J. Lipid Res. 46: 1061-1067 [Abstract] [Full Text]
Cavallo-Medved, D., Mai, J., Dosescu, J., Sameni, M., Sloane, B. F. (2005). Caveolin-1 mediates the expression and localization of cathepsin B, pro-urokinase plasminogen activator and their cell-surface receptors in human colorectal carcinoma cells. J. Cell Sci. 118: 1493-1503 [Abstract] [Full Text]
D'Alessio, A., Al-Lamki, R. S., Bradley, J. R., Pober, J. S. (2005). Caveolae Participate in Tumor Necrosis Factor Receptor 1 Signaling and Internalization in a Human Endothelial Cell Line. Am. J. Pathol. 166: 1273-1282 [Abstract] [Full Text]
Williams, T. M., Lisanti, M. P. (2005). Caveolin-1 in oncogenic transformation, cancer, and metastasis. Am. J. Physiol. Cell Physiol. 288: C494-C506 [Abstract] [Full Text]
Capozza, F., Cohen, A. W., Cheung, M. W.-C., Sotgia, F., Schubert, W., Battista, M., Lee, H., Frank, P. G., Lisanti, M. P. (2005). Muscle-specific interaction of caveolin isoforms: differential complex formation between caveolins in fibroblastic vs. muscle cells. Am. J. Physiol. Cell Physiol. 288: C677-C691 [Abstract] [Full Text]
Shajahan, A. N., Tiruppathi, C., Smrcka, A. V., Malik, A. B., Minshall, R. D. (2004). G{beta}{gamma} Activation of Src Induces Caveolae-mediated Endocytosis in Endothelial Cells. J. Biol. Chem. 279: 48055-48062 [Abstract] [Full Text]
Zhang, H., Zhang, R., Luo, Y., D'Alessio, A., Pober, J. S., Min, W. (2004). AIP1/DAB2IP, a Novel Member of the Ras-GAP Family, Transduces TRAF2-induced ASK1-JNK Activation. J. Biol. Chem. 279: 44955-44965 [Abstract] [Full Text]
Daffara, R., Botto, L., Beretta, E., Conforti, E., Faini, A., Palestini, P., Miserocchi, G. (2004). Endothelial cells as early sensors of pulmonary interstitial edema. J. Appl. Physiol. 97: 1575-1583 [Abstract] [Full Text]
Cohen, A. W., Hnasko, R., Schubert, W., Lisanti, M. P. (2004). Role of Caveolae and Caveolins in Health and Disease. Physiol. Rev. 84: 1341-1379 [Abstract] [Full Text]
Vruchte, D. t., Lloyd-Evans, E., Veldman, R. J., Neville, D. C. A., Dwek, R. A., Platt, F. M., van Blitterswijk, W. J., Sillence, D. J. (2004). Accumulation of Glycosphingolipids in Niemann-Pick C Disease Disrupts Endosomal Transport. J. Biol. Chem. 279: 26167-26175 [Abstract] [Full Text]
Gratton, J.-P., Bernatchez, P., Sessa, W. C. (2004). Caveolae and Caveolins in the Cardiovascular System. Circ. Res. 94: 1408-1417 [Abstract] [Full Text]
Williams, T. M., Lee, H., Cheung, M. W.-C., Cohen, A. W., Razani, B., Iyengar, P., Scherer, P. E., Pestell, R. G., Lisanti, M. P. (2004). Combined Loss of INK4a and Caveolin-1 Synergistically Enhances Cell Proliferation and Oncogene-induced Tumorigenesis: ROLE OF INK4a/CAV-1 IN MAMMARY EPITHELIAL CELL HYPERPLASIA. J. Biol. Chem. 279: 24745-24756 [Abstract] [Full Text]
Duxbury, M. S., Ito, H., Ashley, S. W., Whang, E. E. (2004). CEACAM6 Cross-linking Induces Caveolin-1-dependent, Src-mediated Focal Adhesion Kinase Phosphorylation in BxPC3 Pancreatic Adenocarcinoma Cells. J. Biol. Chem. 279: 23176-23182 [Abstract] [Full Text]
Kawarabayashi, T., Shoji, M., Younkin, L. H., Wen-Lang, L., Dickson, D. W., Murakami, T., Matsubara, E., Abe, K., Ashe, K. H., Younkin, S. G. (2004). Dimeric Amyloid {beta} Protein Rapidly Accumulates in Lipid Rafts followed by Apolipoprotein E and Phosphorylated Tau Accumulation in the Tg2576 Mouse Model of Alzheimer's Disease. J. Neurosci. 24: 3801-3809 [Abstract] [Full Text]
Zhang, H., Links, P. H., Ngsee, J. K., Tran, K., Cui, Z., Ko, K. W. S., Yao, Z. (2004). Localization of Low Density Lipoprotein Receptor-related Protein 1 to Caveolae in 3T3-L1 Adipocytes in Response to Insulin Treatment. J. Biol. Chem. 279: 2221-2230 [Abstract] [Full Text]
Wong, W., Schlichter, L. C. (2004). Differential Recruitment of Kv1.4 and Kv4.2 to Lipid Rafts by PSD-95. J. Biol. Chem. 279: 444-452 [Abstract] [Full Text]
Tam, B. Y. Y., Finnson, K. W., Philip, A. (2003). Glycosylphosphatidylinositol-anchored Proteins Regulate Transforming Growth Factor-{beta} Signaling in Human Keratinocytes. J. Biol. Chem. 278: 49610-49617 [Abstract] [Full Text]
Nichols, B. (2003). Caveosomes and endocytosis of lipid rafts. J. Cell Sci. 116: 4707-4714 [Abstract] [Full Text]
Sotgia, F., Bonuccelli, G., Minetti, C., Woodman, S. E., Capozza, F., Kemp, R. G., Scherer, P. E., Lisanti, M. P. (2003). Phosphofructokinase Muscle-Specific Isoform Requires Caveolin-3 Expression for Plasma Membrane Recruitment and Caveolar Targeting: Implications for the Pathogenesis of Caveolin-Related Muscle Diseases. Am. J. Pathol. 163: 2619-2634 [Abstract] [Full Text]
Hiller, N. L., Akompong, T., Morrow, J. S., Holder, A. A., Haldar, K. (2003). Identification of a Stomatin Orthologue in Vacuoles Induced in Human Erythrocytes by Malaria Parasites: A ROLE FOR MICROBIAL RAFT PROTEINS IN APICOMPLEXAN VACUOLE BIOGENESIS. J. Biol. Chem. 278: 48413-48421 [Abstract] [Full Text]
Zeng, Y., Tao, N., Chung, K.-N., Heuser, J. E., Lublin, D. M. (2003). Endocytosis of Oxidized Low Density Lipoprotein through Scavenger Receptor CD36 Utilizes a Lipid Raft Pathway That Does Not Require Caveolin-1. J. Biol. Chem. 278: 45931-45936 [Abstract] [Full Text]
Evans, W. E. IV, Coyer, R. L., Sandusky, M. F., Van Fleet, M. J., Moore, J. G., Nyquist, S. E. (2003). Characterization of Membrane Rafts Isolated From Rat Sertoli Cell Cultures: Caveolin and Flotillin-1 Content. J Androl 24: 812-821 [Abstract] [Full Text]
Sotgia, F., Woodman, S. E., Bonuccelli, G., Capozza, F., Minetti, C., Scherer, P. E., Lisanti, M. P. (2003). Phenotypic behavior of caveolin-3 R26Q, a mutant associated with hyperCKemia, distal myopathy, and rippling muscle disease. Am. J. Physiol. Cell Physiol. 285: C1150-C1160 [Abstract] [Full Text]
Zhang, F., Tom, C. C., Kugler, M. C., Ching, T.-T., Kreidberg, J. A., Wei, Y., Chapman, H. A. (2003). Distinct ligand binding sites in integrin {alpha}3{beta}1 regulate matrix adhesion and cell-cell contact. JCB 163: 177-188 [Abstract] [Full Text]
Palestini, P., Calvi, C., Conforti, E., Daffara, R., Botto, L., Miserocchi, G. (2003). Compositional changes in lipid microdomains of air-blood barrier plasma membranes in pulmonary interstitial edema. J. Appl. Physiol. 95: 1446-1452 [Abstract] [Full Text]
Wickstrom, S. A., Alitalo, K., Keski-Oja, J. (2003). Endostatin Associates with Lipid Rafts and Induces Reorganization of the Actin Cytoskeleton via Down-regulation of RhoA Activity. J. Biol. Chem. 278: 37895-37901 [Abstract] [Full Text]
Bender, F. C., Whitbeck, J. C., Ponce de Leon, M., Lou, H., Eisenberg, R. J., Cohen, G. H. (2003). Specific Association of Glycoprotein B with Lipid Rafts during Herpes Simplex Virus Entry. J. Virol. 77: 9542-9552 [Abstract] [Full Text]
Pawson, A. J., Maudsley, S. R., Lopes, J., Katz, A. A., Sun, Y.-M., Davidson, J. S., Millar, R. P. (2003). Multiple Determinants for Rapid Agonist-Induced Internalization of a Nonmammalian Gonadotropin-Releasing Hormone Receptor: A Putative Palmitoylation Site and Threonine Doublet within the Carboxyl-Terminal Tail Are Critical. Endocrinology 144: 3860-3871 [Abstract] [Full Text]
Peters, P. J., Mironov, A. Jr., Peretz, D., van Donselaar, E., Leclerc, E., Erpel, S., DeArmond, S. J., Burton, D. R., Williamson, R. A., Vey, M., Prusiner, S. B. (2003). Trafficking of prion proteins through a caveolae-mediated endosomal pathway. JCB 162: 703-717 [Abstract] [Full Text]
Mograbi, B., Corcelle, E., Defamie, N., Samson, M., Nebout, M., Segretain, D., Fenichel, P., Pointis, G. (2003). Aberrant Connexin 43 endocytosis by the carcinogen lindane involves activation of the ERK/mitogen-activated protein kinase pathway. Carcinogenesis 24: 1415-1423 [Abstract] [Full Text]
Cho, K. A., Ryu, S. J., Park, J. S., Jang, I. S., Ahn, J. S., Kim, K. T., Park, S. C. (2003). Senescent Phenotype Can Be Reversed by Reduction of Caveolin Status. J. Biol. Chem. 278: 27789-27795 [Abstract] [Full Text]
Brazer, S.-c. W., Singh, B. B., Liu, X., Swaim, W., Ambudkar, I. S. (2003). Caveolin-1 Contributes to Assembly of Store-operated Ca2+ Influx Channels by Regulating Plasma Membrane Localization of TRPC1. J. Biol. Chem. 278: 27208-27215 [Abstract] [Full Text]
Summy, J. M., Qian, Y., Jiang, B.-H., Guappone-Koay, A., Gatesman, A., Shi, X., Flynn, D. C. (2003). The SH4-Unique-SH3-SH2 domains dictate specificity in signaling that differentiate c-Yes from c-Src. J. Cell Sci. 116: 2585-2598 [Abstract] [Full Text]
Ridyard, M. S., Robbins, S. M. (2003). Fibroblast Growth Factor-2-induced Signaling through Lipid Raft-associated Fibroblast Growth Factor Receptor Substrate 2 (FRS2). J. Biol. Chem. 278: 13803-13809 [Abstract] [Full Text]
Pike, L. J. (2003). Lipid rafts: bringing order to chaos. J. Lipid Res. 44: 655-667 [Abstract] [Full Text]
Leung, L. W., Contreras, R. G., Flores-Maldonado, C., Cereijido, M., Rodriguez-Boulan, E. (2003). Inhibitors of glycosphingolipid biosynthesis reduce transepithelial electrical resistance in MDCK I and FRT cells. Am. J. Physiol. Cell Physiol. 284: C1021-C1030 [Abstract] [Full Text]
Huo, H., Guo, X., Hong, S., Jiang, M., Liu, X., Liao, K. (2003). Lipid Rafts/Caveolae Are Essential for Insulin-like Growth Factor-1 Receptor Signaling during 3T3-L1 Preadipocyte Differentiation Induction. J. Biol. Chem. 278: 11561-11569 [Abstract] [Full Text]
Giurisato, E., McIntosh, D. P., Tassi, M., Gamberucci, A., Benedetti, A. (2003). T Cell Receptor Can Be Recruited to a Subset of Plasma Membrane Rafts, Independently of Cell Signaling and Attendantly to Raft Clustering. J. Biol. Chem. 278: 6771-6778 [Abstract] [Full Text]
Otsuki, M., Itoh, T., Takenawa, T. (2003). Neural Wiskott-Aldrich Syndrome Protein Is Recruited to Rafts and Associates with Endophilin A in Response to Epidermal Growth Factor. J. Biol. Chem. 278: 6461-6469 [Abstract] [Full Text]
Nanjundan, M., Possmayer, F. (2003). Pulmonary phosphatidic acid phosphatase and lipid phosphate phosphohydrolase. Am. J. Physiol. Lung Cell. Mol. Physiol. 284: L1-L23 [Abstract] [Full Text]
Boesze-Battaglia, K., Dispoto, J., Kahoe, M. A. (2002). Association of a Photoreceptor-specific Tetraspanin Protein, ROM-1, with Triton X-100-resistant Membrane Rafts from Rod Outer Segment Disk Membranes. J. Biol. Chem. 277: 41843-41849 [Abstract] [Full Text]
Peterziel, H., Unsicker, K., Krieglstein, K. (2002). TGF{beta} induces GDNF responsiveness in neurons by recruitment of GFR{alpha}1 to the plasma membrane. JCB 159: 157-167 [Abstract] [Full Text]
Lee, H., Park, D. S., Razani, B., Russell, R. G., Pestell, R. G., Lisanti, M. P. (2002). Caveolin-1 Mutations (P132L and Null) and the Pathogenesis of Breast Cancer : Caveolin-1 (P132L) Behaves in a Dominant-Negative Manner and Caveolin-1 (-/-) Null Mice Show Mammary Epithelial Cell Hyperplasia. Am. J. Pathol. 161: 1357-1369 [Abstract] [Full Text]
Lee, H., Park, D. S., Wang, X. B., Scherer, P. E., Schwartz, P. E., Lisanti, M. P. (2002). Src-induced Phosphorylation of Caveolin-2 on Tyrosine 19. PHOSPHO-CAVEOLIN-2 (TYR(P)19) IS LOCALIZED NEAR FOCAL ADHESIONS, REMAINS ASSOCIATED WITH LIPID RAFTS/CAVEOLAE, BUT NO LONGER FORMS A HIGH MOLECULAR MASS HETERO-OLIGOMER WITH CAVEOLIN-1. J. Biol. Chem. 277: 34556-34567 [Abstract] [Full Text]
Razani, B., Woodman, S. E., Lisanti, M. P. (2002). Caveolae: From Cell Biology to Animal Physiology. Pharmacol. Rev. 54: 431-467 [Abstract] [Full Text]
Yamabhai, M., Anderson, R. G. W. (2002). Second Cysteine-rich Region of Epidermal Growth Factor Receptor Contains Targeting Information for Caveolae/Rafts. J. Biol. Chem. 277: 24843-24846 [Abstract] [Full Text]
Marella, M., Lehmann, S., Grassi, J., Chabry, J. (2002). Filipin Prevents Pathological Prion Protein Accumulation by Reducing Endocytosis and Inducing Cellular PrP Release. J. Biol. Chem. 277: 25457-25464 [Abstract] [Full Text]
Anderson, R. G. W., Jacobson, K. (2002). A Role for Lipid Shells in Targeting Proteins to Caveolae, Rafts, and Other Lipid Domains. Science 296: 1821-1825 [Abstract] [Full Text]
Sotgia, F., Razani, B., Bonuccelli, G., Schubert, W., Battista, M., Lee, H., Capozza, F., Schubert, A. L., Minetti, C., Buckley, J. T., Lisanti, M. P. (2002). Intracellular Retention of Glycosylphosphatidyl Inositol-Linked Proteins in Caveolin-Deficient Cells. Mol. Cell. Biol. 22: 3905-3926 [Abstract] [Full Text]
Garver, W. S., Krishnan, K., Gallagos, J. R., Michikawa, M., Francis, G. A., Heidenreich, R. A. (2002). Niemann-Pick C1 protein regulates cholesterol transport to the trans-Golgi network and plasma membrane caveolae. J. Lipid Res. 43: 579-589 [Abstract] [Full Text]
Razani, B., Wang, X. B., Engelman, J. A., Battista, M., Lagaud, G., Zhang, X. L., Kneitz, B., Hou, H. Jr., Christ, G. J., Edelmann, W., Lisanti, M. P. (2002). Caveolin-2-Deficient Mice Show Evidence of Severe Pulmonary Dysfunction without Disruption of Caveolae. Mol. Cell. Biol. 22: 2329-2344 [Abstract] [Full Text]
Zhuang, L., Lin, J., Lu, M. L., Solomon, K. R., Freeman, M. R. (2002). Cholesterol-rich Lipid Rafts Mediate Akt-regulated Survival in Prostate Cancer Cells. Cancer Res. 62: 2227-2231 [Abstract] [Full Text]
Chen, Y.-H., Lu, Q., Goodenough, D. A., Jeansonne, B. (2002). Nonreceptor Tyrosine Kinase c-Yes Interacts with Occludin during Tight Junction Formation in Canine Kidney Epithelial Cells. Mol. Biol. Cell 13: 1227-1237 [Abstract] [Full Text]
Vargas, L., Nore, B. F., Berglof, A., Heinonen, J. E., Mattsson, P. T., Smith, C. I. E., Mohamed, A. J. (2002). Functional Interaction of Caveolin-1 with Bruton's Tyrosine Kinase and Bmx. J. Biol. Chem. 277: 9351-9357 [Abstract] [Full Text]
Breuza, L., Corby, S., Arsanto, J.-P., Delgrossi, M.-H., Scheiffele, P., Le Bivic, A. (2002). The scaffolding domain of caveolin 2 is responsible for its Golgi localization in Caco-2 cells. J. Cell Sci. 115: 4457-4467 [Abstract] [Full Text]
Hakomori, S.-i. (2002). The glycosynapse. Proc. Natl. Acad. Sci. USA 10.1073/pnas.012540899v1 [Abstract] [Full Text]
Razani, B., Lisanti, M. P. (2001). Two distinct caveolin-1 domains mediate the functional interaction of caveolin-1 with protein kinase A. Am. J. Physiol. Cell Physiol. 281: C1241-C1250 [Abstract] [Full Text]
Fujita, T., Toya, Y., Iwatsubo, K., Onda, T., Kimura, K., Umemura, S., Ishikawa, Y. (2001). Accumulation of molecules involved in {alpha}1-adrenergic signal within caveolae: caveolin expression and the development of cardiac hypertrophy. Cardiovasc Res 51: 709-716 [Abstract] [Full Text]
Kimura, A., Baumann, C. A., Chiang, S.-H., Saltiel, A. R. (2001). The sorbin homology domain: A motif for the targeting of proteins to lipid rafts. Proc. Natl. Acad. Sci. USA 98: 9098-9103 [Abstract] [Full Text]
Muller, G., Jung, C., Wied, S., Welte, S., Jordan, H., Frick, W. (2001). Redistribution of Glycolipid Raft Domain Components Induces Insulin-Mimetic Signaling in Rat Adipocytes. Mol. Cell. Biol. 21: 4553-4567 [Abstract] [Full Text]
Gkantiragas, I., Brugger, B., Stuven, E., Kaloyanova, D., Li, X.-Y., Lohr, K., Lottspeich, F., Wieland, F. T., Helms, J. B. (2001). Sphingomyelin-enriched Microdomains at the Golgi Complex. Mol. Biol. Cell 12: 1819-1833 [Abstract] [Full Text]
Suzuki, T., Kiyokawa, N., Taguchi, T., Sekino, T., Katagiri, Y. U., Fujimoto, J. (2001). CD24 Induces Apoptosis in Human B Cells Via the Glycolipid-Enriched Membrane Domains/Rafts-Mediated Signaling System. J. Immunol. 166: 5567-5577 [Abstract] [Full Text]
Ginés, S., Ciruela, F., Burgueño, J., Casadó, V., Canela, Enric. I., Mallol, J., Lluís, C., Franco, R. (2001). Involvement of Caveolin in Ligand-Induced Recruitment and Internalization of A1 Adenosine Receptor and Adenosine Deaminase in an Epithelial Cell Line. Mol. Pharmacol. 59: 1314-1323 [Abstract] [Full Text]
Liu, J., Lee, P., Galbiati, F., Kitsis, R. N., Lisanti, M. P. (2001). Caveolin-1 expression sensitizes fibroblastic and epithelial cells to apoptotic stimulation. Am. J. Physiol. Cell Physiol. 280: C823-C835 [Abstract] [Full Text]
Nusrat, A., von Eichel-Streiber, C., Turner, J. R., Verkade, P., Madara, J. L., Parkos, C. A. (2001). Clostridium difficile Toxins Disrupt Epithelial Barrier Function by Altering Membrane Microdomain Localization of Tight Junction Proteins. Infect. Immun. 69: 1329-1336 [Abstract] [Full Text]
Oh, P., Schnitzer, J. E. (2001). Segregation of Heterotrimeric G Proteins in Cell Surface Microdomains. Gq Binds Caveolin to Concentrate in Caveolae, whereas Gi and Gs Target Lipid Rafts by Default. Mol. Biol. Cell 12: 685-698 [Abstract] [Full Text]
Li, H., Brodsky, S., Basco, M., Romanov, V., De Angelis, D. A., Goligorsky, M. S. (2001). Nitric Oxide Attenuates Signal Transduction : Possible Role in Dissociating Caveolin-1 Scaffold. Circ. Res. 88: 229-236 [Abstract] [Full Text]
Felley-Bosco, E., Bender, F. C., Courjault-Gautier, F., Bron, C., Quest, A. F. G. (2000). Caveolin-1 down-regulates inducible nitric oxide synthase via the proteasome pathway in human colon carcinoma cells. Proc. Natl. Acad. Sci. USA 10.1073/pnas.250406797v1 [Abstract] [Full Text]