Cortactin: The gray eminence of the cytoskeleton

Physiology

Volumn 21, Issue 5, 2006, Pages 352-361

  Cosen Binker, Laura I ^a   Kapus, András ^a  

^a ST MICHAEL'S HOSPITAL   (Canada)

Author keywords

[No Author keywords available]

Indexed keywords

CORTACTIN;

ANIMAL; CELL STRUCTURE; CHEMISTRY; CYTOSKELETON; HUMAN; METABOLISM; PHYSIOLOGY; REVIEW; SIGNAL TRANSDUCTION;

ANIMALS; CELLULAR STRUCTURES; CORTACTIN; CYTOSKELETON; HUMANS; SIGNAL TRANSDUCTION;

EID: 33749431556     PISSN: 15489213     EISSN: None     Source Type: Journal    
DOI: 10.1152/physiol.00012.2006     Document Type: Review

References (108)

1. Artym VV, Zhang Y, Seillier-Moiseiwitsch F, Yamada KM, and Mueller SC. Dynamic interactions of cortactin and membrane type 1 matrix metalloproteinase at invadopodia: defining the stages of invadopodia formation and function. Cancer Res 66: 3034-3043, 2006.
2. Bershadsky A. Magic touch: how does cell-cell adhesion trigger actin assembly? Trends Cell Biol 14: 589-593, 2004.
3. Birukov KG, Birukova AA, Dudek SM, Verin AD, Crow MT, Zhan X, DePaola N, and Garcia JG. Shear stress-mediated cytoskeletal remodeling and cortactin translocation in pulmonary endothelial cells. Am J Respir Cell Mol Biol 26: 453-464, 2002.
4. Borisy GG and Svitkina TM. Actin machinery: pushing the envelope. Curr Opin Cell Biol 12: 104-112, 2000.
5. Bowden ET, Barth M, Thomas D, Glazer RI, and Mueller SC. An invasion-related complex of cortactin, paxillin and PKCmu associates with invadopodia at sites of extracellular matrix degradation. Oncogene 18: 4440-4449, 1999.
6. Bowden ET, Onikoyi E, Slack R, Myoui A, Yoneda T, Yamada KM, and Mueller SC. Co-localization of cortactin and phosphotyrosine identifies active invadopodia in human breast cancer cells. Exp Cell Res 312: 1240-1253, 2006.
7. Bringuier PP, Tamimi Y, Schuuring E, and Schalken J. Expression of cyclin D1 and EMS1 in bladder tumours; relationship with chromosome 11q13 amplification. Oncogene 12: 1747-1753, 1996.
8. Bryce NS, Clark ES, Leysath JL, Currie JD, Webb DJ, and Weaver AM. Cortactin promotes cell motility by enhancing lamellipodial persistence. Curr Biol 15: 1276-1285, 2005.
9. Buccione R, Orth JD, and McNiven MA. Foot and mouth: podosomes, invadopodia and circular dorsal ruffles. Nat Rev Mol Cell Biol 5: 647-657, 2004.
10. Burgstaller G and Gimona M. Actin cytoskeleton remodelling via local inhibition of contractility at discrete microdomains. J Cell Sci 117: 223-231, 2004.
11. Campbell DH, Sutherland RL, and Daly RJ. Signaling pathways and structural domains required for phosphorylation of EMS1/cortactin. Cancer Res 59: 5376-5385, 1999.
12. Cao H, Orth JD, Chen J, Weller SG, Heuser JE, and McNiven MA. Cortactin is a component of clathrin-coated pits and participates in receptor-mediated endocytosis. Mol Cell Biol 23: 2162-2170, 2003.
13. Cao H, Weller S, Orth JD, Chen J, Huang B, Chen JL, Stamnes M, and McNiven MA. Actin and Arf1-dependent recruitment of a cortactin-dynamin complex to the Golgi regulates post-Golgi transport. Nat Cell Biol 7: 483-492, 2005.
14. Chen L, Wang ZW, Zhu JW, and Zhan X. Roles of cortactin, an actin polymerization mediator, in cell endocytosis. Acta Biochim Biophys Sin (Shanghai) 38: 95-103, 2006.
15. Cheng Y, Leung S, and Mangoura D. Transient suppression of cortactin ectopically induces large telencephalic neurons towards a GABAergic phenotype. J Cell Sci 113: 3161-3172, 2000.
16. Chuma M, Sakamoto M, Yasuda J, Fujii G, Nakanishi K, Tsuchiya A, Ohta T, Asaka M, and Hirohashi S. Overexpression of cortactin is involved in motility and metastasis of hepatocellular carcinoma. J Hepatol 41: 629-636, 2004.
17. Cosen-Binker L, Fan L, Szaszi K, Di Ciano-Oliveira C, and Kapus A. Cortactin is indispensable for EGF-induced rapid lamellipod extension in mammary tumor cells. Mol Biol Cell 15: A147, 141a, 2004.
18. Crostella L, Lidder S, Williams R, and Skouteris GG. Hepatocyte growth factor/scatter factorinduces phosphorylation of cortactin in A431 cells in a Src kinase-independent manner. Oncogene 20: 3735-3745, 2001.
19. Daly RJ. Cortactin signalling and dynamic actin networks. Biochem J 382: 13-25, 2004.
20. Davis CJ, Meighan PC, Taishi P, Krueger JM, Harding JW, and Wright JW. REM sleep deprivation attenuates actin-binding protein cortactin: a link between sleep and hippocampal plasticity. Neurosci Lett 400: 191-196, 2006.
21. Destaing O, Saltel F, Geminard JC, Jurdic P, and Bard F. Podosomes display actin turnover and dynamic self-organization in osteoclasts expressing actin-green fluorescent protein. Mol Biol Cell 14: 407-416, 2003.
22. Di Ciano C, Nie Z, Szaszi K, Lewis A, Uruno T, Zhan X, Rotstein OD, Mak A, and Kapus A. Osmotic stress-induced remodeling of the cortical cytoskeleton. Am J Physiol Cell Physiol 283: C850-C865, 2002.
23. Du Y, Weed SA, Xiong WC, Marshall TD, and Parsons JT. Identification of a novel cortactin SH3 domain-binding protein and its localization to growth cones of cultured neurons. Mol Cell Biol 18: 5838-5851, 1998.
24. Dudek SM, Birukov KG, Zhan X, and Garcia JG. Novel interaction of cortactin with endothelial cell myosin light chain kinase. Biochem Biophys Res Commun 298: 511-519, 2002.
25. Dudek SM, Jacobson JR, Chiang ET, Birukov KG, Wang P, Zhan X, and Garcia JG. Pulmonary endothelial cell barrier enhancement by sphingosine 1-phosphate: roles for cortactin and myosin light chain kinase. J Biol Chem 279: 24692-24700, 2004.
26. Ehlers MD. Synapse structure: glutamate receptors connected by the shanks. Curr Biol 9: 848-850, 1999.
27. El Sayegh TY, Arora PD, Fan L, Laschinger CA, Greer PA, McCulloch CA, and Kapus A. Phosphorylation of N-cadherin-associated cortactin by Fer kinase regulates N-cadherin mobility and intercellular adhesion strength. Mol Biol Cell 16: 5514-5527, 2005.
28. El Sayegh TY, Arora PD, Laschinger CA, Lee W, Morrison C, Overall CM, Kapus A, and McCulloch CA. Cortactin associates with N-cadherin adhesions and mediates intercellular adhesion strengthening in fibroblasts. J Cell Sci 117: 5117-5131, 2004.
29. Fan L, Di Ciano-Oliveira C, Weed SA, Craig AW, Greer PA, Rotstein OD, and Kapus A. Actin depolymerization-induced tyrosine phosphorylation of cortactin: the role of Fer kinase. Biochem J 380: 581-591, 2004.
30. Gallet C, Rosa JP, Habib A, Lebret M, Levy-Toledano S, and Maclouf J. Tyrosine phosphorylation of cortactin associated with Syk accompanies thromboxane analogue-induced platelet shape change. J Biol Chem 274: 23610-23616, 1999.
31. Gray NW, Kruchten AE, Chen J, and McNiven MA. A dynamin-3 spliced variant modulates the actin/cortactin-dependent morphogenesis of dendritic spines. J Cell Sci 118: 1279-1290, 2005.
32. Hattan D, Nesti E, Cachero TG, and Morielli AD. Tyrosine phosphorylation of Kv1.2 modulates its interaction with the actin-binding protein cortactin. J Biol Chem 277: 38596-38606, 2002.
33. Head JA, Jiang D, Li M, Zorn LJ, Schaefer EM, Parsons JT, and Weed SA. Cortactin tyrosine phosphorylation requires Rac1 activity and association with the cortical actin cytoskeleton. Mol Biol Cell 14: 3216-3229, 2003.
34. Helwani FM, Kovacs EM, Paterson AD, Verma S, Ali RG, Fanning AS, Weed SA, and Yap AS. Cortactin is necessary for E-cadherin-mediated contact formation and actin reorganization. J Cell Biol 164: 899-910, 2004.
35. Hering H and Sheng M. Activity-dependent redistribution and essential role of cortactin in dendritic spine morphogenesis. J Neurosci 23: 11759-11769, 2003.
36. Higgs HN and Pollard TD. Regulation of actin filament network formation through ARP2/3 complex: activation by a diverse array of proteins. Annu Rev Biochem 70: 649-676, 2001.
37. Hou P, Estrada L, Kinley AW, Parsons JT, Vojtek AB, and Gorski JL. Fgd1, the Cdc42 GEF responsible for Faciogenital Dysplasia, directly interacts with cortactin and mAbp1 to modulate cell shape. Hum Mol Genet 12: 1981-1993, 2003.
38. Huang C, Liu J, Haudenschild CC, and Zhan X. The role of tyrosine phosphorylation of cortactin in the locomotion of endothelial cells. J Biol Chem 273: 25770-25776, 1998.
39. Huang C, Ni Y, Wang T, Gao Y, Haudenschild CC, and Zhan X. Down-regulation of the filamentous actin cross-linking activity of cortactin by Src-mediated tyrosine phosphorylation. J Biol Chem 272: 13911-13915, 1997.
40. Huang C, Tandon NN, Greco NJ, Ni Y, Wang T, and Zhan X. Proteolysis of platelet cortactin by calpain. J Biol Chem 272: 19248-19252, 1997.
41. Iki J, Inoue A, Bito H, and Okabe S. Bi-directional regulation of postsynaptic cortactin distribution by BDNF and NMDA receptor activity. Eur J Neurosci 22: 2985-2994, 2005.
42. Illes A, Enyedi B, Tamas P, Balazs A, Bogel G, and Buday L. Inducible phosphorylation of cortactin is not necessary for cortactin-mediated actin polymerisation. Cell Signal 18: 830-840, 2006.
43. Illes A, Enyedi B, Tamas P, Balazs A, Bogel G, Melinda Lukacs, and Buday L. Cortactin is required for integrin-mediated cell spreading. Immunol Lett 104: 124-130, 2006.
44. Imaoka T, Horseman ND, Lockefeer JA, Mori T, and Matsuda M. Cortactin-binding protein 90 (CBP90) expression in the mouse mammary glands during prolactin-induced lobuloalveolar development. Zoolog Sci 19: 443-448, 2002.
45. Kaksonen M, Peng HB, and Rauvala H. Association of cortactin with dynamic actin in lamellipodia and on endosomal vesicles. J Cell Sci 113: 4421-4426, 2000.
46. Kapus A, Di Ciano C, Sun J, Zhan X, Kim L, Wong TW, and Rotstein OD. Cell volume-dependent phosphorylation of proteins of the cortical cytoskeleton and cell-cell contact sites. The role of Fyn and FER kinases. J Biol Chem 275: 32289-32298, 2000.
47. + exchangers. J Biol Chem 274: 8093-8102, 1999.
48. Kempiak SJ, Yamaguchi H, Sarmiento C, Sidani M, Ghosh M, Eddy RJ, Desmarais V, Way M, Condeelis J, and Segall JE. A neural Wiskott-Aldrich Syndrome protein-mediated pathway for localized activation of actin polymerization that is regulated by cortactin. J Biol Chem 280: 5836-5842, 2005.
49. Kim K, Hou P, Gorski JL, and Cooper JA. Effect of Fgd1 on cortactin in Arp2/3 complex-mediated actin assembly. Biochemistry 43: 2422-2427, 2004.
50. Kim L and Wong TW. Growth factor-dependent phosphorylation of the actin-binding protein cortactin is mediated by the cytoplasmic tyrosine kinase FER. J Biol Chem 273: 23542-23548, 1998.
51. Kinley AW, Weed SA, Weaver AM, Karginov AV, Bissonette E, Cooper JA, and Parsons JT. Cortactin interacts with WIP in regulating Arp2/3 activation and membrane protrusion. Curr Biol 13: 384-393, 2003.
52. Kinnunen T, Kaksonen M, Saarinen J, Kalkkinen N, Peng HB, and Rauvala H. Cortactin-Src kinase signaling pathway is involved in N-syndecan-dependent neurite outgrowth. J Biol Chem 273: 10702-10708, 1998.
53. Knoll B and Drescher U. Src family kinases are involved in EphA receptor-mediated retinal axon guidance. J Neurosci 24: 6248-6257, 2004.
54. Kowalski JR, Egile C, Gil S, Snapper SB, Li R, and Thomas SM. Cortactin regulates cell migration through activation of N-WASP. J Cell Sci 118: 79-87, 2005.
55. Krueger EW, Orth JD, Cao H, and McNiven MA. A dynamin-cortactin-Arp2/3 complex mediates actin reorganization in growth factor-stimulated cells. Mol Biol Cell 14: 1085-1096, 2003.
56. Lee JF, Ozaki H, Zhan X, Wang E, Hla T, and Lee MJ. Sphingosine-1- phosphate signaling regulates lamellipodia localization of cortactin complexes in endothelial cells. Histochem Cell Biol: 1-8, 2006.
57. Lee SH. Interaction of nonreceptor tyrosine-kinase Fer and p120 catenin is involved in neuronal polarization. Mol Cells 20: 256-262, 2005.
58. Li Y, Tondravi M, Liu J, Smith E, Haudenschild CC, Kaczmarek M, and Zhan X. Cortactin potentiates bone metastasis of breast cancer cells. Cancer Res 61: 6906-6911, 2001.
59. Lin J, Liu J, Wang Y, Zhu J, Zhou K, Smith N, and Zhan X. Differential regulation of cortactin and N-WASP-mediated actin polymerization by missing in metastasis (MIM) protein. Oncogene 24: 2059-2066, 2005.
60. Linder S and Aepfelbacher M. Podosomes: adhesion hot-spots of invasive cells. Trends Cell Biol 13: 376-385, 2003.
61. Liu J, Huang C, and Zhan X. Src is required for cell migration and shape changes induced by fibroblast growth factor 1. Oncogene 18: 6700-6706, 1999.
62. Lua BL and Low BC. Cortactin phosphorylation as a switch for actin cytoskeletal network and cell dynamics control. FEBS Lett 579: 577-585, 2005.
63. Lynch DK, Winata SC, Lyons RJ, Hughes WE, Lehrbach GM, Wasinger V, Corthals G, Cordwell S, and Daly RJ. A cortactin-CD2-associated protein (CD2AP) complex provides a novel link between epidermal growth factor receptor endocytosis and the actin cytoskeleton. J Biol Chem 278: 21805-21813, 2003.
64. Martinez-Quiles N, Ho HY, Kirschner MW, Ramesh N, and Geha RS. Erk/Src phosphorylation of cortactin acts as a switch on-switch off mechanism that controls its ability to activate N-WASP. Mol Cell Biol 24: 5269-5280, 2004.
65. Martinez MC, Ochiishi T, Majewski M, and Kosik KS. Dual regulation of neuronal morphogenesis by a delta-catenin-cortactin complex and Rho. J Cell Biol 162: 99-111, 2003.
66. McNiven MA, Baldassarre M, and Buccione R. The role of dynamin in the assembly and function of podosomes and invadopodia. Front Biosci 9: 1944-1953, 2004.
67. McNiven MA, Kim L, Krueger EW, Orth JD, Cao H, and Wong TW. Regulated interactions between dynamin and the actin-binding protein cortactin modulate cell shape. J Cell Biol 151: 187-198, 2000.
68. Meighan SE, Meighan PC, Choudhury P, Davis CJ, Olson ML, Zornes PA, Wright JW, and Harding JW. Effects of extracellular matrix-degrading proteases matrix metalloproteinases 3 and 9 on spatial learning and synaptic plasticity. J Neurochem 96: 1227-1241, 2006.
69. Merrifield CJ, Perrais D, and Zenisek D. Coupling between clathrin-coated-pit invagination, cortactin recruitment, and membrane scission observed in live cells. Cell 121: 593-606, 2005.
70. Mizutani K, Miki H, He H, Maruta H, and Takenawa T. Essential role of neural Wiskott-Aldrich syndrome protein in podosome formation and degradation of extracellular matrix in src-transformed fibroblasts. Cancer Res 62: 669-674, 2002.
71. Naisbitt S, Kim E, Tu JC, Xiao B, Sala C, Valtschanoff J, Weinberg RJ, Worley PF, and Sheng M. Shank, a novel family of postsynaptic density proteins that binds to the NMDA receptor/PSD-95/GKAP complex and cortactin. Neuron 23: 569-582, 1999.
72. Ohoka Y and Takai Y. Isolation and characterization of cortactin isoforms and a novel cortactin-binding protein, CBP90. Genes Cells 3: 603-612, 1998.
73. Okamura H and Resh MD. p80/85 cortactin associates with the Src SH2 domain and colocalizes with v-Src in transformed cells. J Biol Chem 270: 26613-26618, 1995.
74. Ormandy CJ, Musgrove EA, Hui R, Daly RJ, and Sutherland RL. Cyclin D1, EMS1 and 11q13 amplification in breast cancer. Breast Cancer Res Treat 78: 323-335, 2003.
75. Orth JD and McNiven MA. Dynamin at the actin-membrane interface. Curr Opin Cell Biol 15: 31-39, 2003.
76. Pant K, Chereau D, Hatch V, Dominguez R, and Lehman W. Cortactin binding to F-actin revealed by electron microscopy and 3D reconstruction. J Mol Biol 359: 840-847, 2006.
77. Patel AM, Incognito LS, Schechter GL, Wasilenko WJ, and Somers KD. Amplification and expression of EMS-1 (cortactin) in head and neck squamous cell carcinoma cell lines. Oncogene 12: 31-35, 1996.
78. Patel AS, Schechter GL, Wasilenko WJ, and Somers KD. Overexpression of EMS1/cortactin in NIH3T3 fibroblasts causes increased cell motility and invasion in vitro. Oncogene 16: 3227-3232, 1998.
79. Perrin BJ, Amann KJ, and Huttenlocher A. Proteolysis of cortactin by calpain regulates membrane protrusion during cell migration. Mol Biol Cell 17: 239-250, 2006.
80. Sauvonnet N, Dujeancourt A, and Dautry-Varsat A. Cortactin and dynamin are required for the clathrin-independent endocytosis of gammac cytokine receptor. J Cell Biol 168: 155-163, 2005.
81. Schafer DA. Coupling actin dynamics and membrane dynamics during endocytosis. Curr Opin Cell Biol 14: 76-81, 2002.
82. Schafer DA, Weed SA, Binns D, Karginov AV, Parsons JT, and Cooper JA. Dynamin2 and cortactin regulate actin assembly and filament organization. Curr Biol 12: 1852-1857, 2002.
83. Schuuring E. The involvement of the chromosome 11q13 region in human malignancies: cyclin D1 and EMS1 are two new candidate oncogenes: a review. Gene 159: 83-96, 1995.
84. Schuuring E, van Damme H, Schuuring-Scholtes E, Verhoeven E, Michalides R, Geelen E, de Boer C, Brok H, van Buuren V, and Kluin P. Characterization of the EMS1 gene and its product, human Cortactin. Cell Adhes Commun 6: 185-209, 1998.
85. Selbach M and Backert S. Cortactin: an Achilles' heel of the actin cytoskeleton targeted by pathogens. Trends Microbiol 13: 181-189, 2005.
86. Stevens JM, Galyov EE, and Stevens MP. Actin-dependent movement of bacterial pathogens. Nat Rev Microbiol 4: 91-101, 2006.
87. Stevenson BR and Keon BH. The tight junction: morphology to molecules. Annu Rev Cell Dev Biol 14: 89-109, 1998.
88. Taliana L, Benezra M, Greenberg RS, Masur SK, and Bernstein AM. ZO-1: lamellipodial localization in a corneal fibroblast wound model. Invest Ophthalmol Vis Sci 46: 96-103, 2005.
89. Tehrani S, Faccio R, Chandrasekar I, Ross FP, and Cooper JA. Cortactin has an essential and specific role in osteoclast actin assembly. Mol Biol Cell 17: 2882-2895, 2006.
90. Tepass U. Adherens junctions: new insight into assembly, modulation and function. Bioessays 24: 690-695, 2002.
91. Tilghman RW, Slack-Davis JK, Sergina N, Martin KH, Iwanicki M, Hershey ED, Beggs HE, Reichardt LF, and Parsons JT. Focal adhesion kinase is required for the spatial organization of the leading edge in migrating cells. J Cell Sci 118: 2613-2623, 2005.
92. Timpson P, Lynch DK, Schramek D, Walker F, and Daly RJ. Cortactin overexpression inhibits ligand-induced down-regulation of the epidermal growth factor receptor. Cancer Res 65: 3273-3280, 2005.
93. Uruno T, Liu J, Li Y, Smith N, and Zhan X. Sequential interaction of actin-related proteins 2 and 3 (Arp2/3) complex with neural Wiscott-Aldrich syndrome protein (N-WASP) and cortactin during branched actin filament network formation. J Biol Chem 278: 26086-26093, 2003.
94. Uruno T, Liu J, Zhang P, Fan Y, Egile C, Li R, Mueller SC, and Zhan X. Activation of Arp2/3 complex-mediated actin polymerization by cortactin. Nat Cell Biol 3: 259-266, 2001.
95. van Rossum AG, Moolenaar WH, and Schuuring E. Cortactin affects cell migration by regulating intercellular adhesion and cell spreading. Exp Cell Res 312: 1658-1670, 2006.
96. van Rossum AG, Schuuring-Scholtes E, van Buuren-van Seggelen V, Kluin PM, and Schuuring E. Comparative genome analysis of cortactin and HS1: the significance of the F-actin binding repeat domain. BMC Genomics 6: 15, 2005.
97. Vidal C, Geny B, Melle J, Jandrot-Perrus M, and Fontenay-Roupie M. Cdc42/Rac1-dependent activation of the p21-activated kinase (PAK) regulates human platelet lamellipodia spreading: implication of the cortical-actin binding protein cortactin. Blood 100: 4462-4469, 2002.
98. Weaver AM, Heuser JE, Karginov AV, Lee WL, Parsons JT, and Cooper JA. Interaction of cortactin and N-WASp with Arp2/3 complex. Curr Biol 12: 1270-1278, 2002.
99. Weaver AM, Karginov AV, Kinley AW, Weed SA, Li Y, Parsons JT, and Cooper JA. Cortactin promotes and stabilizes Arp2/3-induced actin filament network formation. Curr Biol 11: 370-374, 2001.
100. Webb BA, Eves R, and Mak AS. Cortactin regulates podosome formation: roles of the protein interaction domains. Exp Cell Res 312: 760-769, 2006.
101. Weed SA, Du Y, and Parsons JT. Translocation of cortactin to the cell periphery is mediated by the small GTPase Rac1. J Cell Sci 111: 2433-2443, 1998.
102. Weed SA, Karginov AV, Schafer DA, Weaver AM, Kinley AW, Cooper JA, and Parsons JT. Cortactin localization to sites of actin assembly in lamellipodia requires interactions with F-actin and the Arp2/3 complex. J Cell Biol 151: 29-40, 2000.
103. Weed SA and Parsons JT. Cortactin: coupling membrane dynamics to cortical actin assembly. Oncogene 20: 6418-6434, 2001.
104. Wu H and Parsons JT. Cortactin, an 80/85-kilodalton pp60src substrate, is a filamentous actin-binding protein enriched in the cell cortex. J Cell Biol 120: 1417-1426, 1993.
105. Wu H, Reynolds AB, Kanner SB, Vines RR, and Parsons JT. Identification and characterization of a novel cytoskeleton-associated pp60src substrate. Mol Cell Biol 11: 5113-5124, 1991.
106. Yang L, Kowalski JR, Zhan X, Thomas SM, and Luscinskas FW. Endothelial cell cortactin phosphorylation by Src contributes to polymorphonuclear leukocyte transmigration in vitro. Circ Res 98: 394-402, 2006.
107. Zhou S, Webb BA, Eves R, and Mak AS. Effects of tyrosine phosphorylation of cortactin on podosome formation in A7r5 vascular smooth muscle cells. Am J Physiol Cell Physiol 290: C463-C471, 2006.
108. Zhu J, Zhou K, Hao JJ, Liu J, Smith N, and Zhan X. Regulation of cortactin/dynamin interaction by actin polymerization during the fission of clathrin-coated pits. J Cell Sci 118: 807-817, 2005.