GCC185 plays independent roles in Golgi structure maintenance and AP-1-mediated vesicle tethering

Journal of Cell Biology

Volumn 194, Issue 5, 2011, Pages 779-787

  Brown, Frank C ^a   Schindelhaim, Carmel H ^a   Pfeffer, Suzanne R ^a  

^a STANFORD UNIVERSITY SCHOOL OF MEDICINE   (United States)

Author keywords

[No Author keywords available]

Indexed keywords

CELL PROTEIN; GCC185 PROTEIN; SOMATOMEDIN B RECEPTOR; TRANSCRIPTION FACTOR AP 1; TRANSCRIPTION FACTOR AP 2; UNCLASSIFIED DRUG;

ARTICLE; CELL CULTURE; CELL STRUCTURE; ENDOSOME; GENETIC TRANSFECTION; IMMUNOBLOTTING; IMMUNOFLUORESCENCE MICROSCOPY; IMMUNOPRECIPITATION; LONG TERM CARE; MICROSCOPY; PLASMID; PRIORITY JOURNAL; PROTEIN DEGRADATION; PROTEIN EXPRESSION; PROTEIN INTERACTION; PROTEIN PURIFICATION; TRANS GOLGI NETWORK; TRANSPORT VESICLE; WESTERN BLOTTING;

ADAPTOR PROTEIN COMPLEX 1; ANIMALS; CATTLE; CELL LINE; CERCOPITHECUS AETHIOPS; EPITHELIAL CELLS; GOLGI APPARATUS; HELA CELLS; HUMANS; MEMBRANE PROTEINS; MICROSCOPY, FLUORESCENCE; MICROTUBULE-ASSOCIATED PROTEINS; PROTEIN BINDING; PROTEIN INTERACTION DOMAINS AND MOTIFS; PROTEIN TRANSPORT; RECEPTOR, IGF TYPE 2; RNA, SMALL INTERFERING; SEQUENCE DELETION; TRANS-GOLGI NETWORK; TRANSFECTION; TRANSPORT VESICLES; VESICULAR TRANSPORT PROTEINS;

EID: 80052628194     PISSN: 00219525     EISSN: 15408140     Source Type: Journal    
DOI: 10.1083/jcb.201104019     Document Type: Article

References (39)

1. Aivazian, D., R.L. Serrano, and S.R. Pfeffer. 2006. TIP47 is a key effector for Rab9 localization. J. Cell Biol. 173:917-926.
2. Braulke, T., and J.S. Bonifacino. 2009. Sorting of lysosomal proteins. Biochim. Biophys. Acta. 1793:605-614.
3. Burguete, A.S., T.D. Fenn, A.T. Brunger, and S.R. Pfeffer. 2008. Rab and Arl GTPase family members cooperate in the localization of the golgin GCC185. Cell. 132:286-298.
4. Cai, H., K. Reinisch, and S. Ferro-Novick. 2007. Coats, tethers, Rabs, and SNAREs work together to mediate the intracellular destination of a transport vesicle. Dev. Cell. 12:671-682.
5. Carroll, K.S., J. Hanna, I. Simon, J. Krise, P. Barbero, and S.R. Pfeffer. 2001. Role of Rab9 GTPase in facilitating receptor recruitment by TIP47. Science. 292:1373-1376.
6. Derby, M.C., C. van Vliet, D. Brown, M.R. Luke, L. Lu, W. Hong, J.L. Stow, and P.A. Gleeson. 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.
7. Derby, M.C., Z.Z. Lieu, D. Brown, J.L. Stow, B. Goud, and P.A. Gleeson. 2007. The trans-Golgi network golgin, GCC185, is required for endosometo-Golgi transport and maintenance of Golgi structure. Traffic. 8:758-773.
8. Díaz, E., and S.R. Pfeffer. 1998. TIP47: a cargo selection device for mannose 6-phosphate receptor trafficking. Cell. 93:433-443.
9. Dintzis, S.M., V.E. Velculescu, and S.R. Pfeffer. 1994. Receptor extracellular domains may contain trafficking information. Studies of the 300-kDa mannose 6-phosphate receptor. J. Biol. Chem. 269:12159-12166.
10. Doray, B., P. Ghosh, J. Griffith, H.J. Geuze, and S. Kornfeld. 2002. Cooperation of GGAs and AP-1 in packaging MPRs at the trans-Golgi network. Science. 297:1700-1703.
11. Draper, R.K., Y. Goda, F.M. Brodsky, and S.R. Pfeffer. 1990. Antibodies to clathrin inhibit endocytosis but not recycling to the trans Golgi network in vitro. Science. 248:1539-1541.
12. Edeling, M.A., C. Smith, and D. Owen. 2006. Life of a clathrin coat: insights from clathrin and AP structures. Nat. Rev. Mol. Cell Biol. 7:32-44.
13. Efimov, A., A. Kharitonov, N. Efimova, J. Loncarek, P.M. Miller, N. Andreyeva, P. Gleeson, N. Galjart, A.R. Maia, I.X. McLeod, et al. 2007. Asymmetric CLASP-dependent nucleation of noncentrosomal microtubules at the trans-Golgi network. Dev. Cell. 12:917-930.
14. Esk, C., C.Y. Chen, L. Johannes, and F.M. Brodsky. 2010. The clathrin heavy chain isoform CHC22 functions in a novel endosomal sorting step. J. Cell Biol. 188:131-144.
15. Espinosa, E.J., M. Calero, K. Sridevi, and S.R. Pfeffer. 2009. RhoBTB3: a Rho GTPase-family ATPase required for endosome to Golgi transport. Cell. 137:938-948.
16. Ganley, I.G., E. Espinosa, and S.R. Pfeffer. 2008. A syntaxin 10-SNARE complex distinguishes two distinct transport routes from endosomes to the trans-Golgi in human cells. J. Cell Biol. 180:159-172.
17. Ghosh, P., N.M. Dahms, and S. Kornfeld. 2003. Mannose 6-phosphate receptors: new twists in the tale. Nat. Rev. Mol. Cell Biol. 4:202-212.
18. Glickman, J.N., E. Conibear, and B.M. Pearse. 1989. Specificity of binding of clathrin adaptors to signals on the mannose-6-phosphate/insulin-like growth factor II receptor. EMBO J. 8:1041-1047.
19. Hayes, G.L., F.C. Brown, A.K. Haas, R.M. Nottingham, F.A. Barr, and S.R. Pfeffer. 2009. Multiple Rab GTPase binding sites in GCC185 suggest a model for vesicle tethering at the trans-Golgi. Mol. Biol. Cell. 20:209-217.
20. Hirst, J., D.A. Sahlender, M. Choma, R. Sinka, M.E. Harbour, M. Parkinson, and M.S. Robinson. 2009. Spatial and functional relationship of GGAs and AP-1 in Drosophila and HeLa cells. Traffic. 10:1696-1710.
21. Huang, F., A. Nesterov, R.E. Carter, and A. Sorkin. 2001. Trafficking of yellow-fluorescent-protein-tagged mu1 subunit of clathrin adaptor AP-1 complex in living cells. Traffic. 2:345-357.
22. Kametaka, S., N. Sawada, J.S. Bonifacino, and S. Waguri. 2010. Functional characterization of protein-sorting machineries at the trans-Golgi network in Drosophila melanogaster. J. Cell Sci. 123:460-471.
23. Ladinsky, M.S., D.N. Mastronarde, J.R. McIntosh, K.E. Howell, and L.A. Staehelin. 1999. Golgi structure in three dimensions: functional insights from the normal rat kidney cell. J. Cell Biol. 144:1135-1149.
24. Liu, S.H., M.C. Towler, E. Chen, C.Y. Chen, W. Song, G. Apodaca, and F.M. Brodsky. 2001. A novel clathrin homolog that co-distributes with cytoskeletal components functions in the trans-Golgi network. EMBO J. 20:272-284.
25. Lombardi, D., T. Soldati, M.A. Riederer, Y. Goda, M. Zerial, and S.R. Pfeffer. 1993. Rab9 functions in transport between late endosomes and the trans Golgi network. EMBO J. 12:677-682.
26. Luke, M.R., L. Kjer-Nielsen, D.L. Brown, J.L. Stow, and P.A. Gleeson. 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.
27. Meyer, C., D. Zizioli, S. Lausmann, E.L. Eskelinen, J. Hamann, P. Saftig, K. von Figura, and P. Schu. 2000. mu1A-adaptin-deficient mice: lethality, loss of AP-1 binding and rerouting of mannose 6-phosphate receptors. EMBO J. 19:2193-2203.
28. Miller, P.M., A.W. Folkmann, A.R. Maia, N. Efimova, A. Efimov, and I. Kaverina. 2009. Golgi-derived CLASP-dependent microtubules control Golgi organization and polarized trafficking in motile cells. Nat. Cell Biol. 11:1069-1080.
29. Pauloin, A. 1998. Clathrin-coated vesicles and targeting. Preparation of adaptor proteins. Methods Mol. Biol. 88:275-284.
30. Pfeffer, S.R. 2010. How the Golgi works: a cisternal progenitor model. Proc. Natl. Acad. Sci. USA. 107:19614-19618.
31. Polishchuk, R.S., E. San Pietro, A. Di Pentima, S. Teté, and J.S. Bonifacino. 2006. Ultrastructure of long-range transport carriers moving from the trans Golgi network to peripheral endosomes. Traffic. 7:1092-1103.
32. Puertollano, R., N.N. van der Wel, L.E. Greene, E. Eisenberg, P.J. Peters, and J.S. Bonifacino. 2003. Morphology and dynamics of clathrin/GGA1-coated carriers budding from the trans-Golgi network. Mol. Biol. Cell. 14:1545-1557.
33. Reddy, J.V., A.S. Burguete, K. Sridevi, I.G. Ganley, R.M. Nottingham, and S.R. Pfeffer. 2006. A functional role for the GCC185 golgin in mannose 6-phosphate receptor recycling. Mol. Biol. Cell. 17:4353-4363.
34. Riederer, M.A., T. Soldati, A.D. Shapiro, J. Lin, and S.R. Pfeffer. 1994. Lysosome biogenesis requires Rab9 function and receptor recycling from endosomes to the trans-Golgi network. J. Cell Biol. 125:573-582.
35. Rothbauer, U., K. Zolghadr, S. Muyldermans, A. Schepers, M.C. Cardoso, and H. Leonhardt. 2008. A versatile nanotrap for biochemical and functional studies with fluorescent fusion proteins. Mol. Cell. Proteomics. 7:282-289.
36. Sinka, R., A.K. Gillingham, V. Kondylis, and S. Munro. 2008. Golgi coiled-coil proteins contain multiple binding sites for Rab family G proteins. J. Cell Biol. 183:607-615.
37. Waguri, S., F. Dewitte, R. Le Borgne, Y. Rouillé, Y. Uchiyama, J.F. Dubremetz, and B. Hoflack. 2003. Visualization of TGN to endosome trafficking through fluorescently labeled MPR and AP-1 in living cells. Mol. Biol. Cell. 14:142-155.
38. Wang, Y.J., J. Wang, H.Q. Sun, M. Martinez, Y.X. Sun, E. Macia, T. Kirchhausen, J.P. Albanesi, M.G. Roth, and H.L. Yin. 2003. Phosphatidylinositol 4 phosphate regulates targeting of clathrin adaptor AP-1 complexes to the Golgi. Cell. 114:299-310.
39. Zhu, Y., L.M. Traub, and S. Kornfeld. 1998. ADP-ribosylation factor 1 transiently activates high-affinity adaptor protein complex AP-1 binding sites on Golgi membranes. Mol. Biol. Cell. 9:1323-1337.