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Cell Cycle Volume 9, 2010 - Issue 13
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BAR domain competition during directional cellular migration

Gabriel A. Quiñones Program in Epithelial Biology and Cancer Biology Graduate Program; Stanford University School of Medicine; Stanford, CA USA
&
Anthony E. Oro Program in Epithelial Biology and Cancer Biology Graduate Program; Stanford University School of Medicine; Stanford, CA USA Correspondence[email protected]
Pages 2522-2528 | Published online: 01 Jul 2010

References

  • Blaser H, Eisenbeiss S, Neumann M, Reichman-Fried M, Thisse B, Thisse C, et al. Transition from non-motile behaviour to directed migration during early PGC development in zebrafish. J Cell Sci 2005; 118:4027 - 4038
  • Friedl P, Hegerfeldt Y, Tusch M. Collective cell migration in morphogenesis and cancer. The International journal of developmental biology 2004; 48:441 - 449
  • Palamidessi A, Frittoli E, Garre M, Faretta M, Mione M, Testa I, et al. Endocytic trafficking of Rac is required for the spatial restriction of signaling in cell migration. Cell 2008; 134:135 - 147
  • Dawson JC, Legg JA, Machesky LM. Bar domain proteins: a role in tubulation, scission and actin assembly in clathrin-mediated endocytosis. Trends Cell Biol 2006; 16:493 - 498
  • Frost A, De Camilli P, Unger VM. F-BAR proteins join the BAR family fold. Structure 2007; 15:751 - 753
  • Saarikangas J, Zhao H, Lappalainen P. Regulation of the actin cytoskeleton-plasma membrane interplay by phosphoinositides. Physiol Rev 2010; 90:259 - 289
  • Saarikangas J, Zhao H, Pykalainen A, Laurinmaki P, Mattila PK, Kinnunen PK, et al. Molecular mechanisms of membrane deformation by I-BAR domain proteins. Curr Biol 2009; 19:95 - 107
  • Balguerie A, Sivadon P, Bonneu M, Aigle M. Rvs167p, the budding yeast homolog of amphiphysin, colocalizes with actin patches. J Cell Sci 1999; 112:2529 - 2537
  • Colwill K, Field D, Moore L, Friesen J, Andrews B. In vivo analysis of the domains of yeast Rvs167p suggests Rvs167p function is mediated through multiple protein interactions. Genetics 1999; 152:881 - 893
  • Elliott K, Sakamuro D, Basu A, Du W, Wunner W, Staller P, et al. Bin1 functionally interacts with Myc and inhibits cell proliferation via multiple mechanisms. Oncogene 1999; 18:3564 - 3573
  • Ge K, Prendergast GC. Bin2, a functionally nonredundant member of the BAR adaptor gene family. Genomics 2000; 67:210 - 220
  • Peter BJ, Kent HM, Mills IG, Vallis Y, Butler PJ, Evans PR, et al. BAR domains as sensors of membrane curvature: the amphiphysin BAR structure. Science 2004; 303:495 - 499
  • Suetsugu S, Toyooka K, Senju Y. Subcellular membrane curvature mediated by the BAR domain super-family proteins. Semin Cell Dev Biol 2009;
  • Razzaq A, Robinson IM, McMahon HT, Skepper JN, Su Y, Zelhof AC, et al. Amphiphysin is necessary for organization of the excitation-contraction coupling machinery of muscles, but not for synaptic vesicle endocytosis in Drosophila. Genes Dev 2001; 15:2967 - 2979
  • Ahmed S, Goh WI, Bu W. I-BAR domains, IRSp53 and filopodium formation. Semin Cell Dev Biol 2009;
  • Bharti S, Inoue H, Bharti K, Hirsch DS, Nie Z, Yoon HY, et al. Src-dependent phosphorylation of ASAP1 regulates podosomes. Mol Cell Biol 2007; 27:8271 - 8283
  • Bu W, Chou AM, Lim KB, Sudhaharan T, Ahmed S. The Toca-1-N-WASP complex links filopodial formation to endocytosis. J Biol Chem 2009; 284:11622 - 11636
  • Takei K, Slepnev VI, Haucke V, De Camilli P. Functional partnership between amphiphysin and dynamin in clathrin-mediated endocytosis. Nat Cell Biol 1999; 1:33 - 39
  • Arkhipov A, Yin Y, Schulten K. Membrane-bending mechanism of amphiphysin N-BAR domains. Biophys J 2009; 97:2727 - 2735
  • Gallop JL, McMahon HT. BAR domains and membrane curvature: bringing your curves to the BAR. Biochem Soc Symp 2005; 223 - 231
  • Meunier B, Quaranta M, Daviet L, Hatzoglou A, Leprince C. The membrane-tubulating potential of amphiphysin 2/BIN1 is dependent on the microtubule-binding cytoplasmic linker protein 170 (CLIP-170). Eur J Cell Biol 2009; 88:91 - 102
  • Pant S, Sharma M, Patel K, Caplan S, Carr CM, Grant BD. AMPH-1/Amphiphysin/Bin1 functions with RME-1/Ehd1 in endocytic recycling. Nat Cell Biol 2009; 11:1399 - 1410
  • Shimada A, Niwa H, Tsujita K, Suetsugu S, Nitta K, Hanawa-Suetsugu K, et al. Curved EFC/F-BAR-domain dimers are joined end to end into a filament for membrane invagination in endocytosis. Cell 2007; 129:761 - 772
  • Blood PD, Swenson RD, Voth GA. Factors influencing local membrane curvature induction by N-BAR domains as revealed by molecular dynamics simulations. Biophys J 2008; 95:1866 - 1876
  • Blood PD, Voth GA. Direct observation of Bin/amphiphysin/Rvs (BAR) domain-induced membrane curvature by means of molecular dynamics simulations. Proc Natl Acad Sci USA 2006; 103:15068 - 15072
  • Cui H, Ayton GS, Voth GA. Membrane binding by the endophilin N-BAR domain. Biophys J 2009; 97:2746 - 2753
  • Ferguson S, Raimondi A, Paradise S, Shen H, Mesaki K, Ferguson A, et al. Coordinated actions of actin and BAR proteins upstream of dynamin at endocytic clathrin-coated pits. Dev Cell 2009; 17:811 - 822
  • Frost A, Unger VM, De Camilli P. The BAR domain superfamily: membrane-molding macromolecules. Cell 2009; 137:191 - 196
  • Gallop JL, Jao CC, Kent HM, Butler PJ, Evans PR, Langen R, et al. Mechanism of endophilin N-BAR domain-mediated membrane curvature. EMBO J 2006; 25:2898 - 2910
  • Aspenstrom P. Roles of F-BAR/PCH proteins in the regulation of membrane dynamics and actin reorganization. Int Rev Cell Mol Biol 2009; 272:1 - 31
  • Guerrier S, Coutinho-Budd J, Sassa T, Gresset A, Jordan NV, Chen K, et al. The F-BAR domain of srGAP2 induces membrane protrusions required for neuronal migration and morphogenesis. Cell 2009; 138:990 - 1004
  • Machesky LM, Johnston SA. MIM: a multifunctional scaffold protein. J Mol Med 2007; 85:569 - 576
  • Mattila PK, Pykalainen A, Saarikangas J, Paavilainen VO, Vihinen H, Jokitalo E, et al. Missing-inmetastasis and IRSp53 deform PI(4,5)P2-rich membranes by an inverse BAR domain-like mechanism. J Cell Biol 2007; 176:953 - 964
  • Masuda M, Mochizuki N. Structural characteristics of BAR domain superfamily to sculpt the membrane. Semin Cell Dev Biol
  • Fricke R, Gohl C, Dharmalingam E, Grevelhorster A, Zahedi B, Harden N, et al. Drosophila Cip4/Toca-1 integrates membrane trafficking and actin dynamics through WASP and SCAR/WAVE. Curr Biol 2009; 19:1429 - 1437
  • Lim KB, Bu W, Goh WI, Koh E, Ong SH, Pawson T, et al. The Cdc42 effector IRSp53 generates filopodia by coupling membrane protrusion with actin dynamics. J Biol Chem 2008; 283:20454 - 20472
  • Suetsugu S, Murayama K, Sakamoto A, Hanawa-Suetsugu K, Seto A, Oikawa T, et al. The RAC binding domain/IRSp53-MIM homology domain of IRSp53 induces RAC-dependent membrane deformation. J Biol Chem 2006; 281:35347 - 35358
  • Kakimoto T, Katoh H, Negishi M. Regulation of neuronal morphology by Toca-1, an F-BAR/EFC protein that induces plasma membrane invagination. J Biol Chem 2006; 281:29042 - 29053
  • Cestra G, Kwiatkowski A, Salazar M, Gertler F, De Camilli P. Tuba, a GEF for CDC42, links dynamin to actin regulatory proteins. Methods Enzymol 2005; 404:537 - 545
  • Salazar MA, Kwiatkowski AV, Pellegrini L, Cestra G, Butler MH, Rossman KL, et al. Tuba, a novel protein containing bin/amphiphysin/Rvs and Dbl homology domains, links dynamin to regulation of the actin cytoskeleton. J Biol Chem 2003; 278:49031 - 49043
  • Masuda M, Takeda S, Sone M, Ohki T, Mori H, Kamioka Y, et al. Endophilin BAR domain drives membrane curvature by two newly identified structure-based mechanisms. EMBO J 2006; 25:2889 - 2897
  • Bhatia VK, Madsen KL, Bolinger PY, Kunding A, Hedegard P, Gether U, et al. Amphipathic motifs in BAR domains are essential for membrane curvature sensing. EMBO J 2009; 28:3303 - 3314
  • Yin Y, Arkhipov A, Schulten K. Simulations of membrane tubulation by lattices of amphiphysin N-BAR domains. Structure 2009; 17:882 - 892
  • Itoh T, Erdmann KS, Roux A, Habermann B, Werner H, De Camilli P. Dynamin and the actin cytoskeleton cooperatively regulate plasma membrane invagination by BAR and F-BAR proteins. Dev Cell 2005; 9:791 - 804
  • Takano K, Toyooka K, Suetsugu S. EFC/F-BAR proteins and the N-WASP-WIP complex induce membrane curvature-dependent actin polymerization. EMBO J 2008; 27:2817 - 2828
  • Toguchi M, Richnau N, Ruusala A, Aspenstrom P. Members of the CIP4 family of proteins participate in the regulation of platelet-derived growth factor receptor-beta-dependent actin reorganization and migration. Biol Cell 2009;
  • Dharmalingam E, Haeckel A, Pinyol R, Schwintzer L, Koch D, Kessels MM, et al. F-BAR proteins of the syndapin family shape the plasma membrane and are crucial for neuromorphogenesis. J Neurosci 2009; 29:13315 - 11327
  • Halbach A, Morgelin M, Baumgarten M, Milbrandt M, Paulsson M, Plomann M. PACSIN 1 forms tetramers via its N-terminal F-BAR domain. FEBS J 2007; 274:773 - 782
  • Wang Q, Navarro MV, Peng G, Molinelli E, Lin Goh S, Judson BL, et al. Molecular mechanism of membrane constriction and tubulation mediated by the F-BAR protein Pacsin/Syndapin. Proc Natl Acad Sci USA 2009; 106:12700 - 12705
  • Carlton J, Bujny M, Peter BJ, Oorschot VM, Rutherford A, Mellor H, et al. Sorting nexin-1 mediates tubular endosome-to-TGN transport through coincidence sensing of high-curvature membranes and 3-phosphoinositides. Curr Biol 2004; 14:1791 - 1800
  • Shin N, Ahn N, Chang-Ileto B, Park J, Takei K, Ahn SG, et al. SNX9 regulates tubular invagination of the plasma membrane through interaction with actin cytoskeleton and dynamin 2. J Cell Sci 2008; 121:1252 - 1263
  • van Weering JR, Verkade P, Cullen PJ. SNX-BAR proteins in phosphoinositide-mediated, tubular-based endosomal sorting. Semin Cell Dev Biol 2009;
  • Yarar D, Surka MC, Leonard MC, Schmid SL. SNX9 activities are regulated by multiple phosphoinositides through both PX and BAR domains. Traffic 2008; 9:133 - 146
  • Haberg K, Lundmark R, Carlsson SR. SNX18 is an SNX9 paralog that acts as a membrane tubulator in AP-1-positive endosomal trafficking. J Cell Sci 2008; 121:1495 - 1505
  • Pylypenko O, Ignatev A, Lundmark R, Rasmuson E, Carlsson SR, Rak A. A combinatorial approach to crystallization of PX-BAR unit of the human Sorting Nexin 9. J Struct Biol 2008; 162:356 - 360
  • Yarar D, Waterman-Storer CM, Schmid SL. SNX9 couples actin assembly to phosphoinositide signals and is required for membrane remodeling during endocytosis. Dev Cell 2007; 13:43 - 56
  • Rocca DL, Martin S, Jenkins EL, Hanley JG. Inhibition of Arp2/3-mediated actin polymerization by PICK1 regulates neuronal morphology and AMPA receptor endocytosis. Nat Cell Biol 2008; 10:259 - 271
  • Kessels MM, Qualmann B. The syndapin protein family: linking membrane trafficking with the cytoskeleton. J Cell Sci 2004; 117:3077 - 3086
  • Modregger J, DiProspero NA, Charles V, Tagle DA, Plomann M. PACSIN 1 interacts with huntingtin and is absent from synaptic varicosities in presymptomatic Huntington's disease brains. Hum Mol Genet 2002; 11:2547 - 2558
  • Qualmann B, Roos J, DiGregorio PJ, Kelly RB, Syndapin I. a synaptic dynamin-binding protein that associates with the neural Wiskott-Aldrich syndrome protein. Mol Biol Cell 1999; 10:501 - 513
  • Qualmann B, Kessels MM, Kelly RB. Molecular links between endocytosis and the actin cytoskeleton. J Cell Biol 2000; 150:111 - 116
  • Qualmann B, Kelly RB. Syndapin isoforms participate in receptor-mediated endocytosis and actin organization. J Cell Biol 2000; 148:1047 - 1062
  • Modregger J, Ritter B, Witter B, Paulsson M, Plomann M. All three PACSIN isoforms bind to endocytic proteins and inhibit endocytosis. J Cell Sci 2000; 113:4511 - 4521
  • Bompard G, Sharp SJ, Freiss G, Machesky LM. Involvement of Rac in actin cytoskeleton rearrangements induced by MIM-B. J Cell Sci 2005; 118:5393 - 5403
  • Sawallisch C, Berhorster K, Disanza A, Mantoani S, Kintscher M, Stoenica L, et al. The insulin receptor substrate of 53 kDa (IRSp53) limits hippocampal synaptic plasticity. J Biol Chem 2009; 284:9225 - 9236
  • Yang C, Hoelzle M, Disanza A, Scita G, Svitkina T. Coordination of membrane and actin cytoskeleton dynamics during filopodia protrusion. PLoS One 2009; 4:5678 - 5678
  • Quinones G, Jin J, Oro A. I-BAR Protein Antagonism of Endocytosis Mediates Directional Sensing During Guided Cell Migration. J Cell Biol 2010; 189
  • Dikic I. CIN85/CMS family of adaptor molecules. FEBS Lett 2002; 529:110 - 115
  • Lynch DK, Winata SC, Lyons RJ, Hughes WE, Lehrbach GM, Wasinger V, et al. A Cortactin-CD2-associated protein (CD2AP) complex provides a novel link between epidermal growth factor receptor endocytosis and the actin cytoskeleton. J Biol Chem 2003; 278:21805 - 21813
  • Cotton M, Claing A. G protein-coupled receptors stimulation and the control of cell migration. Cell Signal 2009; 21:1045 - 1053
  • Falguieres T, Luyet PP, Gruenberg J. Molecular assemblies and membrane domains in multivesicular endosome dynamics. Exp Cell Res 2009; 315:1567 - 1573
  • Jones MC, Caswell PT, Norman JC. Endocytic recycling pathways: emerging regulators of cell migration. Curr Opin Cell Biol 2006; 18:549 - 557
  • Bianco A, Poukkula M, Cliffe A, Mathieu J, Luque CM, Fulga TA, et al. Two distinct modes of guidance signalling during collective migration of border cells. Nature 2007; 448:362 - 365
  • Jekely G, Sung HH, Luque CM, Rorth P. Regulators of endocytosis maintain localized receptor tyrosine kinase signaling in guided migration. Dev Cell 2005; 9:197 - 207
  • Liu H, Liu ZQ, Chen CX, Magill S, Jiang Y, Liu YJ. Inhibitory regulation of EGF receptor degradation by sorting nexin 5. Biochem Biophys Res Commun 2006; 342:537 - 546

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