Entry at the trans-face of the Golgi

Cold Spring Harbor Perspectives in Biology

Volumn 3, Issue 3, 2011, Pages 1-11

  Pfeffer, Suzanne R ^a  

^a STANFORD UNIVERSITY SCHOOL OF MEDICINE   (United States)

Author keywords

[No Author keywords available]

Indexed keywords

RHO GUANINE NUCLEOTIDE BINDING PROTEIN; RHOBTB3 PROTEIN, HUMAN; VESICULAR TRANSPORT PROTEIN;

BIOLOGICAL MODEL; METABOLISM; PHYSIOLOGY; PROTEIN TRANSPORT; REVIEW; TRANS GOLGI NETWORK; TRANSPORT VESICLE; ULTRASTRUCTURE;

MODELS, BIOLOGICAL; PROTEIN TRANSPORT; RHO GTP-BINDING PROTEINS; TRANS-GOLGI NETWORK; TRANSPORT VESICLES; VESICULAR TRANSPORT PROTEINS;

EID: 84856756381     PISSN: None     EISSN: 19430264     Source Type: Journal    
DOI: 10.1101/cshperspect.a005272     Document Type: Review

References (84)

1. Amessou M, Fradagrada A, Falguières T, Lord JM, Smith DC, Roberts LM, Lamaze C, Johannes L. 2007. Syntaxin 16 and syntaxin 5 are required for efficient retrograde transport of several exogenous and endogenous cargo proteins. J Cell Sci 120: 1457-1468.
2. Andersen OM, Reiche J, Schmidt V, Gotthardt M, Spoelgen R, Behlke J, von Arnim CA, Breiderhoff T, Jansen P, Wu X, et al. 2005. Neuronal sorting protein-related receptor sorLA/LR11 regulates processing of the amyloid precursor protein. Proc Natl Acad Sci 102: 13461-13466.
3. Arighi CN, Hartnell LM, Aguilar RC, Haft CR, Bonifacino JS. 2004. Role of the mammalian Retromer in sorting of the cation-independent mannose 6-phosphate receptor. J Cell Biol 165: 123-133.
4. Barbero P, Bittova L, Pfeffer SR. 2002. Visualization of Rab9-mediated vesicle transport from endosomes to the trans-Golgi in living cells. J Cell Biol 156: 511-518.
5. Bonifacino JS, Rojas R. 2006. Retrograde transport from endosomes to the trans-Golgi network. Nat Rev Mol Cell Biol 7: 568-579.
6. Burguete AS, Fenn TD, Brunger AT, Pfeffer SR. 2008. Rab and Arl GTPase family members cooperate in the localization of the golgin GCC185. Cell 132: 286-298.
7. Carlton J, Bujny M, Peter BJ, Oorschot VM, Rutherford A, Mellor H, Klumperman J, McMahon HT, Cullen PJ. 2004. Sorting nexin-1 mediates tubular endosome-to-TGN transport through coincidence sensing of highcurvature membranes and 3-phosphoinositides. Curr Biol 14: 1791-1800.
8. Carroll KS, Hanna J, Simon I, Krise J, Barbero P, Pfeffer SR. 2001. Role of Rab9 GTPase in facilitating receptor recruitment by TIP47. Science 292: 1373-1376.
9. Conibear E, Cleck JN, Stevens TH. 2003. Vps51p mediates the association of the GARP (Vps52/53/54) complex with the late Golgi t-SNARE Tlg1p. Mol Biol Cell 14: 1610-1623.
10. Conibear E, Stevens TH. 2000. Vps52p, Vps53p, and Vps54p form a novel multisubunit complex required for protein sorting at the yeast late Golgi. Mol Biol Cell 11: 305-323.
11. Del Nery E, Miserey-Lenkei S, Falguières T, Nizak C, Johannes L, Perez F, Goud B. 2006. Rab6A and Rab6A' GTPases play non-overlapping roles in membrane trafficking. Traffic 7: 394-407.
12. Derby MC, Lieu ZZ, BrownD, StowJL, Goud B, Gleeson PA. 2007. The trans-Golgi network golgin, GCC185, is required for endosome-to-Golgi transport and maintenance of Golgi structure. Traffic 8: 758-773.
13. Derby MC, van Vliet C, Brown D, Luke MR, Lu L, HongW, Stow JL, Gleeson PA. 2004. Mammalian GRIP domain proteins differ in their membrane binding properties and are recruited to distinct domains of the TGN. J Cell Sci 117: 5865-5874.
14. Díaz E, Pfeffer SR. 1998. TIP47: a cargo selection device for mannose 6-phosphate receptor trafficking. Cell 93: 433-443.
15. Doray B, Ghosh P, Griffith J, Geuze HJ, Kornfeld S. 2002. Cooperation of GGAs and AP-1 in packaging MPRs at the trans-Golgi network. Science 297: 1700-1703.
16. Duncan JR, Kornfeld S. 1988. Intracellularmovement of two mannose 6-phosphate receptors: return to the Golgi apparatus. J Cell Biol 106: 617-628.
17. Efimov A, Kharitonov A, Efimova N, Loncarek J, Miller PM, Andreyeva N, Gleeson P, Galjart N, Maia AR, McLeod IX, et al. 2007. Asymmetric CLASP-dependent nucleation of noncentrosomal microtubules at the trans-Golgi network. Dev Cell 12: 917-930.
18. Esk C, Chen CY, Johannes L, Brodsky FM. 2010. The clathrin heavy chain isoform CHC22 functions in a novel endosomal sorting step. J Cell Biol 188: 131-144.
19. Espinosa EJ, Calero M, Sridevi K, Pfeffer SR. 2009. RhoBTB3: a Rho GTPase-family ATPase required for endosome to Golgi transport. Cell 137: 938-948.
20. Fridmann-Sirkis Y, Siniossoglou S, Pelham HR. 2004. TMF is a golgin that binds Rab6 and influences Golgi morphology. BMC Cell Biol 5: 18.
21. Fridmann-Sirkis Y, Kent HM, Lewis MJ, Evans PR, Pelham HR. 2006. Structural analysis of the interaction between the SNARE Tlg1 and Vps51. Traffic 7: 182-190.
22. Fuchs E, Haas AK, Spooner RA, Yoshimura S, Lord JM, Barr FA. 2007. Specific Rab GTPase-activating proteins define the Shiga toxin and epidermal growth factor uptake pathways. J Cell Biol 177: 1133-1143.
23. Ganley IG, Espinosa E, Pfeffer SR. 2008. A syntaxin 10-SNARE complex distinguishes two distinct transport routes fromendosomes to the trans-Golgi in human cells. J Cell Biol 180: 159-172.
24. Ganley IG, Carroll K, Bittova L, Pfeffer S. 2004. Rab9 GTPase regulates late endosome size and requires effector interaction for its stability. Mol Biol Cell 15: 5420-5430.
25. Ghosh P, Dahms NM, Kornfeld S. 2003. Mannose 6-phosphate receptors: new twists in the tale. Nat Rev Mol Cell Biol 4: 202-212.
26. Goud B, Gleeson PA. 2010. TGN golgins, Rabs and cytoskeleton: regulating the Golgi trafficking highways. Trends Cell Biol 20: 329-336.
27. Hanna J, Carroll K, Pfeffer SR. 2002. Identification of residues in TIP47 essential for Rab9 binding. Proc Natl Acad Sci 99: 7450-7454.
28. Hayes GL, Brown FC, Haas AK, Nottingham RM, Barr FA, Pfeffer SR. 2009. Multiple Rab GTPase binding sites in GCC185 suggest a model for vesicle tethering at the trans-Golgi. Mol Biol Cell 20: 209-217.
29. He X, Li F, Chang WP, Tang J. 2005. GGA proteins mediate the recycling pathway of memapsin 2 (BACE). J Biol Chem 280: 11696-11703.
30. Hirst J, Motley A, Harasaki K, Peak Chew SY, Robinson MS. 2003. EpsinR: an ENTH domain-containing protein that interacts with AP-1. Mol Biol Cell 14: 625-641.
31. Hirst J, Sahlender DA, Choma M, Sinka R, Harbour ME, Parkinson M, Robinson MS. 2009. Spatial and functional relationship of GGAs and AP-1 in Drosophila and HeLa cells. Traffic 10: 1696-1710.
32. 0 and Arl1. Cell 138: 787-794.
33. Iversen TG, Skretting G, Llorente A, Nicoziani P, van Deurs B, Sandvig K. 2001. Endosome to Golgi transport of ricin is independent of clathrin and of the Rab9-and Rab11-GTPases. Mol. Biol Cell 12: 2099-2107.
34. Johannes L, Popoff V. 2008. Tracing the retrograde route in protein trafficking. Cell 135: 1175-1187.
35. Ladinsky MS, Kremer JR, Furcinitti PS, McIntosh JR, Howell KE. 1994. HVEM tomography of the trans-Golgi network: structural insights and identification of a lacelike vesicle coat. J Cell Biol 127: 29-38.
36. Ladinsky MS, Mastronarde DN, McIntosh JR, Howell KE. Staehelin LA. 1999. J Cell Biol 144: 1135-1149.
37. Lieu ZZ, Gleeson PA. 2010. Identification of different itineraries and Retromer components for endosome-to-Golgi transport of TGN38 and Shiga toxin. Eur J Cell Biol 89: 379-393.
38. Lieu ZZ, Derby MC, Teasdale RD, Hart C, Gunn P, Gleeson PA. 2007. The golgin GCC88 is required for efficient retrograde transport of cargo from the early endosomes to the trans-Golgi network. Mol Biol Cell 18: 4979-4991.
39. Lieu ZZ, Lock JG, Hammond LA, La Gruta NL, Stow JL, Gleeson PA. 2008. A trans-Golgi network golgin is required for the regulated secretion of TNF in activated macrophages in vivo. Proc Natl Acad Sci 105: 3351-3356.
40. Liewen H, Meinhold-Heerlein I, Oliveira V, Schwarzenbacher R, Luo G, Wadle A, Jung M, Pfreundschuh M, Stenner-Liewen F. 2005. Characterization of the human GARP (Golgi associated retrograde protein) complex. Exp Cell Res 306: 24-34.
41. Lock JG, Hammond LA, Houghton F, Gleeson PA, Stow JL. 2005. E-cadherin transport from the trans-Golgi network in tubulovesicular carriers is selectively regulated by golgin-97. Traffic 6: 1142-1156.
42. Lombardi D, Soldati T, Riederer MA, Goda Y, Zerial M, Pfeffer SR. 1993. Rab9 functions in transport between late endosomes and the trans-Golgi network. EMBO J 12: 677-682.
43. Lu L, Tai G, HongW. 2004. Autoantigen Golgin-97, an effector of Arl1 GTPase, participates in traffic from the endosome to the trans-Golgi network. Mol Biol Cell 15: 4426-4443.
44. Luke MR, Houghton F, Perugini MA, Gleeson PA. 2005. The trans-Golgi network GRIP-domain proteins form alphahelical homodimers. Biochem J 388: 835-841.
45. Luke MR, Kjer-Nielsen L, Brown DL, Stow JL, Gleeson PA. 2003. GRIP domain-mediated targeting of two new coiled-coil proteins, GCC88 and GCC185, to subcompartments of the trans-Golgi network. J Biol Chem 278: 4216-4226.
46. Mallard F, Antony C, TenzaD, Salamero J, Goud B, Johannes L. 1998. Direct pathway from early/recycling endosomes to the Golgi apparatus revealed through the study of shiga toxin B-fragment transport. J Cell Biol 143: 973-990.
47. Mallard F, Tang BL, Galli T, Tenza D, Saint-Pol A, Yue X, Antony C, Hong W, Goud B, Johannes L. 2002. Early/recycling endosomes-to-TGN transport involves two SNARE complexes and a Rab6 isoform. J Cell Biol 156: 653-664.
48. Malsam J, Söllner TH. 2011. Organization of the SNAREs within the Golgi stack. Cold Spring Harb Perspect Biol doi: 10.1101/cshperspect.a005249.
49. Marcusson EG, Horazdovsky BF, Cereghino JL, Gharakhanian E, Emr SD. 1994. The sorting receptor for yeast vacuolar carboxypeptidase Y is encoded by the VPS10 gene. Cell 77: 579-586.
50. Meyer C, Zizioli D, Lausmann S, Eskelinen EL, Hamann J, Saftig P, von Figura K, Schu P. 2000. mu1A-adaptindeficient mice: lethality, loss of AP-1 binding and rerouting of mannose 6-phosphate receptors. EMBO J 19: 2193-2203.
51. Mills IG, Praefcke GJ, Vallis Y, Peter BJ, Olesen LE, Gallop JL, Butler PJ, Evans PR, McMahon HT. 2003. EpsinR: an AP1/clathrin interacting protein involved in vesicle trafficking. J Cell Biol 160: 213-222.
52. Mogelsvang S, Marsh BJ, Ladinsky MS, Howell KE. 2004. Predicting function from structure: 3D structure studies of the mammalian Golgi complex. Traffic 5: 338-345.
53. Munro S. 2005. The Arf-like GTPase Arl1 and its role in membrane traffic. Biochem Soc Trans 33: 601-605.
54. Munro S. 2011. The Golgin coiled-coil proteins of the Golgi apparatus. Cold Spring Harb Perspect Biol doi: 10.1101/cshperspect.a005256.
55. Naslavsky N, McKenzie J, Altan-Bonnet N, Sheff D, Caplan S. 2009. EHD3 regulates early-endosome-to-Golgi transport and preserves Golgi morphology. J Cell Sci 122: 389-400.
56. Orsel JG, Sincock PM, Krise JP, Pfeffer SR. 2000. Recognition of the 300-kDa mannose 6-phosphate receptor cytoplasmic domain by 47-kDa tail-interacting protein. Proc Natl Acad Sci 97: 9047-9051.
57. Panic B, Whyte JR, Munro S. 2003. The ARF-like GTPases Arl1p and Arl3p act in a pathway that interacts with vesicle-tethering factors at the Golgi apparatus. Curr Biol 13: 405-410.
58. Pérez-Victoria FJ, Bonifacino JS. 2009. Dual roles of the mammalian GARP complex in tethering and SNARE complex assembly at the trans-golgi network. Mol Cell Biol 29: 5251-5263.
59. Pérez-Victoria FJ, Mardones GA, Bonifacino JS. 2008. Requirement of the human GARP complex for mannose 6-phosphate-receptor-dependent sorting of cathepsin D to lysosomes. Mol Biol Cell 19: 2350-2362.
60. Pérez-Victoria FJ, Schindler C, Magadán JG, Mardones GA, Delevoye C, Romao M, Raposo G, Bonifacino JS. 2010. Ang2/Fat-free Is a Conserved Subunit of the Golgi-associated Retrograde Protein (GARP) Complex. Mol Biol Cell doi: 101091/mbcE10-05-0392.
61. Pfeffer SR. 2009. Multiple routes of protein transport from endosomes to the trans-Golgi network. FEBS Lett 583: 3811-3816.
62. Popoff V, Mardones GA, Tenza D, Rojas R, Lamaze C, Bonifacino JS, Raposo G, Johannes L. 2007. The Retromer complex and clathrin define an early endosomal retrograde exit site. J Cell Sci 120: 2022-2031.
63. Port F, Basler K. 2010. Wnt trafficking: new insights into Wnt maturation, secretion and spreading. Traffic 11: 1265-1271.
64. Puertollano R, van der Wel NN, Greene LE, Eisenberg E, Peters PJ, Bonifacino JS. 2003. Morphology and dynamics of clathrin/GGA1-coated carriers budding from the trans-Golgi network. Mol Biol Cell 14: 1545-1557.
65. Ramos S, Khademi F, Somesh BP, Rivero F. 2002. Genomic organization and expression profile of the small GTPases of the RhoBTB family in human and mouse. Gene 298: 147-157.
66. Reddy JV, Burguete AS, Sridevi K, Ganley IG, Nottingham RM, Pfeffer SR. 2006. A functional role for the GCC185 golgin in mannose 6-phosphate receptor recycling. Mol Biol Cell 17: 4353-4363.
67. Riederer MA, Soldati T, Shapiro AD, Lin J, Pfeffer SR. 1994. Lysosome biogenesis requires Rab9 function and receptor recycling from endosomes to the trans-Golgi network. J Cell Biol 125: 573-582.
68. Robinson MS. 2004. Adaptable adaptors for coated vesicles. Trends Cell Biol 14: 167-174.
69. Rogaeva E, Meng Y, Lee JH, Gu Y, Kawarai T, Zou F, Katayama T, Baldwin CT, Cheng R, Hasegawa H, et al. 2007. The neuronal sortilin-related receptor SORL1 is genetically associated with Alzheimer disease. Nat Genet 39: 168-177.
70. Rojas R, van Vlijmen T, Mardones GA, Prabhu Y, Rojas AL, Mohammed S, Heck AJ, Raposo G, van der Sluijs P, Bonifacino JS. 2008. Regulation of Retromer recruitment to endosomes by sequential action of Rab5 and Rab7. J Cell Biol 183: 513-526.
71. Saint-Pol A, Yélamos B, Amessou M, Mills IG, Dugast M, Tenza D, Schu P, Antony C, McMahon HT, Lamaze C, et al. 2004. Clathrin adaptor epsinR is required for retrograde sorting on early endosomal membranes. Dev Cell 6: 525-538.
72. Salas-Vidal E, Meijer AH, Cheng X, Spaink HP. 2005. Genomic annotation and expression analysis of the zebrafish Rho small GTPase family during development and bacterial infection. Genomics 86: 25-37.
73. Seaman MN, Harbour ME, Tattersall D, Read E, Bright N. 2009. Membrane recruitment of the cargo-selective Retromer subcomplex is catalysed by the small GTPase Rab7 and inhibited by the Rab-GAP TBC1D5. J Cell Sci 122: 2371-2382.
74. Seaman MN. 2004. Cargo-selective endosomal sorting for retrieval to the Golgi requires Retromer. J Cell Biol 165: 111-122.
75. Short B, Haas A, Barr FA. 2005. Golgins and GTPases, giving identity and structure to the Golgi apparatus. Biochem Biophys Acta 1744: 383-395.
76. Sincock PM, Ganley IG, Krise JP, Diederichs S, Sivars U, O'Connor B, Ding L, Pfeffer SR. 2003. Self-assembly is important for TIP47 function in mannose 6-phosphate receptor transport. Traffic 4: 18-25.
77. Sinka R, Gillingham AK, Kondylis V, Munro S. 2008. Golgi coiled-coil proteins contain multiple binding sites for Rab family G proteins. J Cell Biol 183: 607-615.
78. Skinner CF, Seaman MNJ. 2009. The role of retromer in neurodegenerative disease. In Intracellular traffic and neurodegenerative disorders: Research and perspectives in Alzheimer's disease (ed. P. St. George-Hyslop et al.), pp. 125-140. Springer-Verlag, Berlin, Heidelberg.
79. Sztul E, Lupashin V. 2006. Role of tethering factors in secretory membrane traffic. Am J Physiol Cell Physiol 290: C11-C26.
80. Tai G, Lu L, Wang TL, Tang BL, Goud B, Johannes L, Hong W. 2004. Participation of the syntaxin 5/Ykt6/GS28/GS15 SNARE complex in transport from the early/recycling endosome to the trans-Golgi network. Mol Biol Cell 15: 4011-4022.
81. Waguri S, Dewitte F, Le Borgne R, Rouillé Y, Uchiyama Y, Dubremetz JF, Hoflack B. 2003. Visualization of TGN to endosome trafficking through fluorescently labeled MPR and AP-1 in living cells. Mol Biol Cell 14: 142-155.
82. Wilcke M, Johannes L, Galli T, Mayau V, Goud B, Salamero J. 2000. Rab11 regulates the compartmentalization of early endosomes required for efficient transport from early endosomes to the trans-golgi network. J Cell Biol 151: 1207-1220.
83. Yamane J, Kubo A, Nakayama K, Yuba-Kubo A, Katsuno T, Tsukita S., Tsukita S. 2007. Functional involvement of TMF/ARA160 in Rab6-dependent retrograde membrane traffic. Exp Cell Res 313: 3472-3485.
84. Yoshino A, Setty SR, Poynton C, Whiteman EL, Saint-Pol A, Burd CG, Johannes L, Holzbaur EL, Koval M, McCaffery JM, et al. 2005. TGolgin-1 (p230, golgin-245) modulates Shiga-toxin transport to the Golgi and Golgi motility towards the microtubule-organizing centre. J Cell Sci 118: 2279-2293.