The GTPase Arf1p and the ER to Golgi cargo receptor Erv14p cooperate to recruit the golgin Rud3p to the cis-Golgi

Journal of Cell Biology

Volumn 167, Issue 2, 2004, Pages 281-292

  Gillingham, Alison K ^a   Tong, Amy Hin Yan ^b,c   Boone, Charles ^b,c   Munro, Sean ^a  

^a MRC LABORATORY OF MOLECULAR BIOLOGY   (United Kingdom)

^b UNIVERSITY OF TORONTO   (Canada)

^c UNIVERSITY OF TORONTO   (Canada)

Author keywords

[No Author keywords available]

Indexed keywords

ADENOSINE DIPHOSPHATE RIBOSYLATION FACTOR 1; ARF PROTEIN; CARRIER PROTEIN; CELL PROTEIN; CELL RECEPTOR; GAMMA TUBULIN; GOLGIN; GUANINE NUCLEOTIDE BINDING PROTEIN; GUANOSINE TRIPHOSPHATASE; MEMBRANE PROTEIN; PROTEIN ARL1; PROTEIN ERV14; PROTEIN GMAP 210; PROTEIN RUD3; UNCLASSIFIED DRUG;

ANIMAL CELL; ARTICLE; CARBOXY TERMINAL SEQUENCE; CENTROSOME; CIS ISOMER; ENDOPLASMIC RETICULUM; GENE DELETION; GENE INTERACTION; GOLGI COMPLEX; MUTANT; NONHUMAN; PRIORITY JOURNAL; PROTEIN BINDING; PROTEIN DOMAIN; PROTEIN LOCALIZATION;

ADP-RIBOSYLATION FACTOR 1; AMINO ACID MOTIFS; AMINO ACID SEQUENCE; ANIMALS; CARRIER PROTEINS; CHROMATOGRAPHY; COS CELLS; ENDOPLASMIC RETICULUM; GENE DELETION; GENOTYPE; GOLGI APPARATUS; GTP PHOSPHOHYDROLASES; GUANOSINE DIPHOSPHATE; MEMBRANE PROTEINS; MICROSCOPY, CONFOCAL; MICROSCOPY, FLUORESCENCE; MICROTUBULE-ASSOCIATED PROTEINS; MOLECULAR SEQUENCE DATA; MONOMERIC GTP-BINDING PROTEINS; MUTATION; NUCLEAR PROTEINS; PLASMIDS; PROTEIN CONFORMATION; PROTEIN STRUCTURE, TERTIARY; RECOMBINANT PROTEINS; SACCHAROMYCES CEREVISIAE; SACCHAROMYCES CEREVISIAE PROTEINS; SEQUENCE HOMOLOGY, AMINO ACID; TUBULIN;

ANIMALIA;

EID: 7244248570     PISSN: 00219525     EISSN: None     Source Type: Journal    
DOI: 10.1083/jcb.200407088     Document Type: Article

References (59)

1. Abe, A., N. Emi, M. Tanimoto, H. Terasaki, T. Marunouchi, and H. Saito. 1997. Fusion of the platelet-derived growth factor receptor β to a novel gene CEV14 in acute myelogenous leukemia after clonal evolution. Blood. 90:4271-4277.
2. Barr, F.A., and B. Short. 2003. Golgins in the structure and dynamics of the Golgi apparatus. Curr. Opin. Cell Biol. 15:405-413.
3. Barr, F.A., M. Puype, J. Vandekerckhove, and G. Warren. 1997. GRASP65, a protein involved in the stacking of Golgi cisternae. Cell. 91:253-262.
4. Behnia, R., B. Panic, J.R. Whyte, and S. Munro. 2004. Targeting of the Arf-like GTPase Ar13p to the Golgi requires N-terminal acetylation and the membrane protein Sys1p. Nat. Cell Biol. 6:405-413.
5. Caldwell, S.R., K.J. Hill, and A.A. Cooper. 2001. Degradation of endoplasmic reticulum (ER) quality control substrates requires transport between the ER and Golgi. J. Biol. Chem. 276:23296-23303.
6. Campbell, R.E., O. Tour, A.E. Palmer, P.A. Steinbach, G.S. Baird, D.A. Zacharias, and R.Y. Tsien. 2002. A monomeric red fluorescent protein. Proc. Natl. Acad. Sci. USA. 99:7877-7882.
7. Cao, X., N. Ballew, and C. Barlowe. 1998. Initial docking of ER-derived vesicles requires Uso1p and Ypt1p but is independent of SNARE proteins. EMBO J. 17:2156-2165.
8. Chang, K.H., Y. Chen, T.T. Chen, W.H. Chou, P.L. Chen, Y.Y. Ma, T.L. Yang-Feng, X. Leng, M.J. Tsai, B.W. O'Malley, et al. 1997. A thyroid hormone receptor coactivator negatively regulated by the retinoblastoma protein. Proc. Natl. Acad. Sci. USA. 94:9040-9045.
9. Chen, Y., P.L. Chen, C.F. Chen, Z.D. Sharp, and W.H. Lee. 1999. Thyroid hormone, T3-dependent phosphorylation and translocation of Trip230 from the Golgi complex to the nucleus. Proc. Natl. Acad. Sci. USA. 96:4443-4448.
10. Diao, A., D. Rahman, D.J, Pappin, J. Lucocq, and M. Lowe. 2003. The coiled-coil membrane protein golgin-84 is a novel rab effector required for Golgi ribbon formation. J. Cell Biol. 160:201-212.
11. Donaldson, J.G., D. Cassel, R.A. Kahn, and R.D. Klausner. 1992. ADP-ribosylation factor, a small GTP-binding protein, is required for binding of the coatomer protein β-COP to Golgi membranes. Proc. Natl. Acad. Sci. USA. 89:6408-6412.
12. Gangi Setty, S.R., M.E. Shin, A. Yoshino, M.S. Marks, and C.G. Burd. 2003. Golgi recruitment of GRIP domain proteins by Arf-like GTPase 1 (Ar11p) is regulated by the Arf-like GTPase 3 (Ar13p). Curr. Biol. 13:401-404.
13. Gillingham, A.K., and S. Munro. 2003. Long coiled-coil proteins and membrane traffic. Biochim. Biophys. Acta. 1641:71-85.
14. Huang, C.F., Y.W. Liu, L. Tung, C.H. Lin, and F.J. Lee. 2003. Role for Arf3p in development of polarity, but not endocytosis, in Saccharomyces cerevisiae. Mol Biol. Cell. 14:3834-3847.
15. Infante, C., F. Ramos-Morales, C. Fedriani, M. Bornens, and R.M. Rios. 1999. GMAP-210, A cis-Golgi network-associated protein, is a minus end microtubule-binding protein. J. Cell Biol. 145:83-98.
16. Kanoh, H., B.T. Williger, and J.H. Exton. 1997. Arfaptin 1, a putative cytosolic target protein of ADP-ribosylation factor, is recruited to Golgi membranes. J. Biol. Chem. 272:5421-5429.
17. Kawamoto, K., Y. Yoshida, H. Tamaki, S. Torii, C. Shinotsuka, S. Yamashina, and K. Nakayama. 2002. GBF1, a guanine nucleotide exchange factor for ADP-ribosylation factors, is localized to the cis-Golgi and involved in membrane association of the COPI coat. Traffic. 3:483-495.
18. Khodjakov, A., and C.L. Rieder. 1999. The sudden recruitment of γ-tubulin to the centrosome at the onset of mitosis and its dynamic exchange throughout the cell cycle, do not require microtubules. J. Cell Biol. 146:585-596.
19. Kim, D.W. 2003. Characterization of Grp1p, a novel cis-Golgi matrix protein. Biochem. Biophys. Res. Commun. 303:370-378.
20. Kim, D.W., M. Sacher, A. Scarpa, A.M. Quinn, and S. Ferro-Novick. 1999. High-copy suppressor analysis reveals a physical interaction between Sec34p and Sec35p, a protein implicated in vesicle docking. Mol. Biol. Cell. 10:3317-3329.
21. Kreis, T.E., M. Lowe, and R. Pepperkok. 1995. COPs regulating membrane traffic. Annu. Rev. Cell Dev. Biol. 11:677-706.
22. Lee, J.W., H.S. Choi, J. Gyuris, R. Brent, and D.D. Moore. 1995. Two classes of proteins dependent on either the presence or absence of thyroid hormone for interaction with the thyroid hormone receptor. Mol. Endocrinol. 9:243-254.
23. Levine, T.P., and S. Munro. 2002. Targeting of Golgi-specific pleckstrin homology domains involves both PtdIns 4-kinase-dependent and -independent components. Curr. Biol. 12:695-704.
24. Lu, L., and W. Hong. 2003. Interaction of Ar11-GTP with GRIP domains recruits autoantigens Golgin-97 and Golgin-245/p230 onto the Golgi. Mol. Biol. Cell. 14:3767-3781.
25. Lupas, A. 1996. Prediction and analysis of coiled-coil structures. Methods Enzymol. 266:513-525.
26. McConville, M.J., S.C. Ilgoutz, R.D. Teasdale, B.J. Foth, A. Matthews, K.A. Mullin, and P.A. Gleeson. 2002. Targeting of the GRIP domain to the trans-Golgi network is conserved from protists to animals. Eur. J. Cell Biol. 81:485-495.
27. Munro, S. 2004. Organelle identity and the organization of membrane traffic. Nat. Cell Biol. 6:469-472.
28. Munro, S., and B.J. Nichols. 1999. The GRIP domain - a novel Golgi-targeting domain found in several coiled-coil proteins. Curr. Biol. 9:377-380.
29. Nie, Z., D.S. Hirsch, and P.A. Randazzo. 2003. Arf and its many interactors. Curr. Opin. Cell Biol. 15:396-404.
30. Panic, B., O. Perisic, D.B. Veprintsev, R.L. Williams, and S. Munro. 2003a. Structural basis for Ar11-dependent targeting of homodimeric GRIP domains to the Golgi apparatus. Mol. Cell. 12:863-874.
31. Panic, B., J.R. Whyte, and S. Munro. 2003b. The ARF-like GTPases Ar11p and Ar13p act in a pathway that interacts with vesicle-tethering factors at the Golgi apparatus. Curr. Biol. 13:405-410.
32. Pelham, H.R. 2004. Membrane traffic: GGAs sort ubiquitin. Curr. Biol. 14: R357-R359.
33. Pernet-Gallay, K., C. Antony, L. Johannes, M. Bornens, B. Goud, and R.M. Rios. 2002. The overexpression of GMAP-210 blocks anterograde and retrograde transport between the ER and the Golgi apparatus. Traffic. 3:822-832.
34. Piel, M., P. Meyer, A. Khodjakov, C.L. Rieder, and M. Bornens. 2000. The respective contributions of the mother and daughter centrioles to centrosome activity and behavior in vertebrate cells. J. Cell Biol. 149:317-330.
35. Powers, J., and C. Barlowe. 1998. Transport of Ax12p depends on Erv14p, an ER-vesicle protein related to the Drosophila cornichon gene product. J. Cell Biol. 142:1209-1222.
36. Powers, J., and C. Barlowe. 2002. Erv14p directs a transmembrane secretory protein into COPII-coated transport vesicles. Mol. Biol. Cell. 13:880-891.
37. Preisinger, C., B. Short, V. De Corte, E. Bruyneel, A. Haas, R. Kopajtich, J. Gettemans, and F.A. Barr, 2004. YSK1 is activated by the Golgi matrix protein GM130 and plays a role in cell migration through its substrate 14-3-3ζ. J. Cell Biol. 164:1009-1020.
38. Rios, R.M., A.M. Tassin, C. Celati, C. Antony, M.C. Boissier, J.C. Homberg, and M. Bornens. 1994. A peripheral protein associated with the cis-Golgi network redistributes in the intermediate compartment upon brefeldin A treatment. J. Cell Biol. 125:997-1013.
39. Rios, R.M., A. Sanchis, A.M. Tassin, C. Fedriani, and M. Bornens. 2004. GMAP-210 recruits γ-tubulin complexes to cis-Golgi membranes and is required for Golgi ribbon formation. Cell. 118:323-335.
40. Robinson, J.S., D.J. Klionsky, L.M. Banta, and S.D. Emr. 1988. Protein sorting in Saccharomyces cerevisiae: isolation of mutants defective in the delivery and processing of multiple vacuolar hydrolases. Mol. Cell. Biol. 8:4936-4948.
41. Roth, S., P.S. Neuman-Silberberg, G. Barcelo, and T. Schupbach. 1995. Cornichon and the EGF receptor signaling process are necessary for both anterior-posterior and dorsal-ventral pattern formation in Drosophila. Cell. 81:967-978.
42. Serafini, T., L. Orci, M. Amherdt, M. Brunner, R.A. Kahn, and J.E. Rothman. 1991. ADP-ribosylation factor is a subunit of the coat of Golgi-derived COP-coated vesicles: a novel role for a GTP-binding protein. Cell. 67:239-253.
43. Setty, S.R., T.I. Strochlic, A.H. Tong, C. Boone, and C.G. Burd. 2004. Golgi targeting of ARF-like GTPase Ar13p requires its Nα-acetylation and the integral membrane protein Sys1p. Nat. Cell Biol. 6:414-419.
44. Shevchenko, A., O.N. Jensen, A.V. Podtelejnikov, F. Sagliocco, M. Wilm, O. Vorm, P. Mortensen, A. Shevchenko, H. Boucherie, and M. Mann. 1996. Linking genome and proteome by mass spectrometry: large-scale identification of yeast proteins from two-dimensional gels. Proc. Natl. Acad. Sci. USA. 93:14440-14445.
45. Shin, O.H., A.H. Ross, I. Mihai, and J.H. Exton. 1999. Identification of arfophilin, a target protein for GTP-bound class II ADP-ribosylation factors. J. Biol. Chem. 274:36609-36615.
46. Siniossoglou, S., S.Y. Peak-Chew, and H.R. Pelham. 2000. Ric1p and Rgp1p form a complex that catalyses nucleotide exchange on Ypt6p. EMBO J. 19:4885-4894.
47. Stearns, T., R.A. Kahn, D. Botstein, and M.A. Hoyt. 1990. ADP ribosylation factor is an essential protein in Saccharomyces cerevisiae and is encoded by two genes. Mol. Cell. Biol. 10:6690-6699.
48. Tong, A.H., G. Lesage, G.D. Bader, H. Ding, H. Xu, X. Xin, J. Young, G.F. Berriz, R.L. Brost, M. Chang, et al. 2004. Global mapping of the yeast genetic interaction network. Science. 303:808-813.
49. Tsukada, M., E. Will, and D. Gallwitz. 1999. Structural and functional analysis of a novel coiled-coil protein involved in Ypt6 GTPase-regulated protein transport in yeast. Mol. Biol. Cell. 10:63-75.
50. Urban, S., J.R. Lee, and M. Freeman. 2002. A family of Rhomboid intra-membrane proteases activates all Drosophila membrane-tethered EGF ligands. EMBO J. 21:4277-4286.
51. VanRheenen, S.M., X. Cao, S.K. Sapperstein, E.C. Chiang, V.V. Lupashin, C. Barlowe, and M.G. Waters. 1999. Sec34p, a protein required for vesicle tethering to the yeast Golgi apparatus, is in a complex with Sec35p. J. Cell Biol. 147:729-742.
52. VanRheenen, S.M., B.A. Reilly, S.J. Chamberlain, and M.G. Waters. 2001. Ds11p, an essential protein required for membrane traffic at the endoplasmic reticulum/Golgi interface in yeast. Traffic. 2:212-231.
53. Wach, A., A. Brachat, C. Alberti-Segui, C. Rebischung, and P. Philippsen. 1997. Heterologous HIS3 marker and GFP reporter modules for PCR-targeting in Saccharomyces cerevisiae. Yeast. 13:1065-1075.
54. 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.
55. Weide, T., M. Bayer, M. Koster, J.P. Siebrasse, R. Peters, and A. Barnekow. 2001. The Golgi matrix protein GM130: a specific interacting partner of the small GTPase rab1b. EMBO Rep. 2:336-341.
56. Whyte, J.R., and S. Munro. 2001. The Sec34/35 Golgi transport complex is related to the exocyst, defining a family of complexes involved in multiple steps of membrane traffic. Dev. Cell. 1:527-537.
57. Wu, M., L. Lu, W. Hong, and H. Song. 2004. Structural basis for recruitment of GRIP domain golgin-245 by small GTPase Ar11. Nat. Struct. Mol. Biol. 11:86-94.
58. Yvon, A.M., J.W. Walker, B. Danowski, C. Fagerstrom, A. Khodjakov, and P. Wadsworth. 2002. Centrosome reorientation in wound-edge cells is cell type specific. Mol. Biol. Cell. 13:1871-1880.
59. Zhao, X., T.K. Lasell, and P. Melancon. 2002. Localization of large ADP-ribosylation factor-guanine nucleotide exchange factors to different Golgi compartments: evidence for distinct functions in protein traffic. Mol. Biol. Cell. 13:119-133.