Integrated self-organization of transitional ER and early Golgi compartments

BioEssays

Volumn 36, Issue 2, 2014, Pages 129-133

  Glick, Benjamin S ^a  

^a UNIVERSITY OF CHICAGO   (United States)

Author keywords

COPII; ER exit sites; Golgi; Self organization; Transitional ER

Indexed keywords

COAT PROTEIN COMPLEX II; GUANOSINE TRIPHOSPHATASE;

ARTICLE; CRYSTALLOGRAPHY; ENDOPLASMIC RETICULUM; GOLGI COMPLEX; MAMMAL; MEMBRANE STRUCTURE; MEMBRANE VESICLE; NONHUMAN; PROTEIN ANALYSIS; RIBOSOME; ANIMAL; BIOLOGICAL MODEL; COATED VESICLE; HUMAN; METABOLISM;

ANIMALS; COP-COATED VESICLES; ENDOPLASMIC RETICULUM; GOLGI APPARATUS; HUMANS; MODELS, BIOLOGICAL;

EID: 84892431574     PISSN: 02659247     EISSN: 15211878     Source Type: Journal    
DOI: 10.1002/bies.201300131     Document Type: Article

References (47)

1. Bannykh SI, Rowe T, Balch WE. 1996. The organization of endoplasmic reticulum export complexes. J Cell Biol 135: 19-35.
2. Mogelsvang S, Gomez-Ospina N, Soderholm J, Glick BS, et al. 2003. Tomographic evidence for continuous turnover of Golgi cisternae in Pichia pastoris. Mol Biol Cell 14: 2277-91.
3. Whaley WG. 1975. The Golgi Apparatus. Vienna: Springer-Verlag. p. 190.
4. Becker B, Melkonian M. 1996. The secretory pathway of protists: spatial and functional organization and evolution. Microbiol Rev 60: 697-721.
5. Hammond AT, Glick BS. 2000. Dynamics of transitional endoplasmic reticulum sites in vertebrate cells. Mol Biol Cell 11: 3013-30.
6. Barlowe CK, Miller EA. 2013. Secretory protein biogenesis and traffic in the early secretory pathway. Genetics 193: 383-410.
7. Bevis BJ, Hammond AT, Reinke CA, Glick BS. 2002. De novo formation of transitional ER sites and Golgi structures in Pichia pastoris. Nat Cell Biol 4: 750-6.
8. Rossanese OW, Soderholm J, Bevis BJ, Sears IB, et al. 1999. Golgi structure correlates with transitional endoplasmic reticulum organization in Pichia pastoris and Saccharomyces cerevisiae. J Cell Biol 145: 69-81.
9. Stephens DJ. 2003. De novo formation, fusion and fission of mammalian COPII-coated endoplasmic reticulum exit sites. EMBO Rep 4: 210-7.
10. Misteli T. 2001. The concept of self-organization in cellular architecture. J Cell Biol 155: 181-5.
11. Palade GE. 1983. Membrane biogenesis: an overview. Methods Enzymol 96: xxix-lv.
12. Warren G, Wickner W. 1996. Organelle inheritance. Cell 84: 395-400.
13. Glick BS, Nakano A. 2009. Membrane traffic within the Golgi stack. Annu Rev Cell Dev Biol 25: 113-32.
14. Huotari J, Helenius A. 2011. Endosome maturation. EMBO J 30: 3481-500.
15. Glick BS. 2002. Can the Golgi form de novo? Nat Rev Mol Cell Biol 3: 615-9.
16. Jean S, Kiger AA. 2012. Coordination between RAB GTPase and phosphoinositide regulation and functions. Nat Rev Mol Cell Biol 13: 463-70.
17. Connerly PL, Esaki M, Montegna EA, Strongin DE, et al. 2005. Sec16 is a determinant of transitional ER organization. Curr Biol 15: 1439-47.
18. Shaywitz DA, Espenshade PJ, Gimeno RE, Kaiser CA. 1997. COPII subunit interactions in the assembly of the vesicle coat. J Biol Chem 272: 25413-6.
19. Hughes H, Budnik A, Schmidt K, Palmer KJ, et al. 2009. Organisation of human ER-exit sites: requirements for the localisation of Sec16 to transitional ER. J Cell Sci 122: 2924-34.
20. Iinuma T, Shiga A, Nakamoto K, O'Brien MB, et al. 2007. Mammalian Sec16/p250 plays a role in membrane traffic from the endoplasmic reticulum. J Biol Chem 282: 17632-9.
21. Ivan V, de Voer G, Xanthakis D, Spoorendonk KM, et al. 2008. Drosophila Sec16 mediates the biogenesis of tER sites upstream of Sar1 through an arginine-rich motif. Mol Biol Cell 19: 4352-65.
22. Montegna EA, Bhave M, Liu Y, Bhattacharyya D, et al. 2012. Sec12 binds to Sec16 at transitional ER sites. PLoS One 7: e31156.
23. Bhattacharyya D, Glick BS. 2007. Two mammalian Sec16 homologs have nonredundant functions in ER export and transitional ER organization. Mol Biol Cell 18: 839-49.
24. Hughes H, Stephens DJ. 2010. Sec16A defines the site for vesicle budding from the endoplasmic reticulum on exit from mitosis. J Cell Sci 123: 4032-8.
25. Whittle JRR, Schwartz TU. 2010. Structure of the Sec13-Sec16 edge element, a template for assembly of the COPII vesicle coat. J Cell Biol 190: 347-61.
26. Yorimitsu T, Sato K. 2012. Insights into structural and regulatory roles of Sec16 in COPII vesicle formation at ER exit sites. Mol Biol Cell 23: 2930-42.
27. Kung LF, Pagant S, Futai E, D'Arcangelo JG, et al. 2011. Sec24p and Sec16p cooperate to regulate the GTP cycle of the COPII coat. EMBO J 31: 1014-27.
28. Bharucha N, Liu Y, Papanikou E, McMahon C, et al. 2013. Sec16 influences transitional ER sites by regulating rather than organizing COPII. Mol Biol Cell 24: 3406-19.
29. daSilva LL, Snapp EL, Denecke J, Lippincott-Schwartz J, et al. 2004. Endoplasmic reticulum export sites and Golgi bodies behave as single mobile secretory units in plant cells. Plant Cell 16: 1753-71.
30. Staehelin LA, Kang BH. 2008. Nanoscale architecture of endoplasmic reticulum export sites and of Golgi membranes as determined by electron tomography. Plant Physiol 147: 1454-68.
31. Appenzeller-Herzog C, Hauri HP. 2006. The ER-Golgi intermediate compartment (ERGIC): in search of its identity and function. J Cell Sci 119: 2173-83.
32. Levi SK, Bhattacharyya D, Strack RL, Austin JRI, et al. 2010. The yeast GRASP Grh1 colocalizes with COPII and is dispensable for organizing the secretory pathway. Traffic 11: 1168-79.
33. Okamoto M, Kurokawa K, Matsuura-Tokita K, Saito C, et al. 2012. High-curvature domains of the ER are important for the organization of ER exit sites in Saccharomyces cerevisiae. J Cell Sci 125: 3412-20.
34. Zeuschner D, Geerts WJ, van Donselaar E, Humbel BM, et al. 2006. Immuno-electron tomography of ER exit sites reveals the existence of free COPII-coated transport carriers. Nat Cell Biol 8: 377-83.
35. Cai H, Reinisch K, Ferro-Novick S. 2007. Coats, tethers, Rabs, and SNAREs work together to mediate the intracellular destination of a transport vesicle. Dev Cell 12: 671-82.
36. Bannykh SI, Balch WE. 1997. Membrane dynamics at the endoplasmic reticulum-Golgi interface. J Cell Biol 138: 1-4.
37. Bhandari D, Zhang J, Menon S, Lord C, et al. 2013. Sit4p/PP6 regulates ER-to-Golgi traffic by controlling the dephosphorylation of COPII coat subunits. Mol Biol Cell 24: 2727-38.
38. Bröcker C, Engelbrecht-Vandré S, Ungermann C. 2010. Multisubunit tethering complexes and their role in membrane fusion. Curr Biol 20: R943-R952.
39. Yamakawa H, Seog DH, Yoda K, Yamasaki M, et al. 1996. Uso1 protein is a dimer with two globular heads and a long coiled-coil tail. J Struct Biol 116: 356-65.
40. Gillingham AK, Pfeifer AC, Munro S. 2002. CASP, the alternatively spliced product of the gene encoding the CCAAT-displacement protein transcription factor, is a Golgi membrane protein related to giantin. Mol Biol Cell 13: 3761-74.
41. Osterrieder A. 2012. Tales of tethers and tentacles: golgins in plants. J Microsc 247: 68-77.
42. Witte K, Schuh AL, Hegermann J, Sarkeshik A, et al. 2011. TGF-1 function in protein secretion and oncogenesis. Nat Cell Biol 13: 550-8.
43. Kondylis V, Rabouille C. 2003. A novel role for dp115 in the organization of tER sites in Drosophila. J Cell Biol 162: 185-98.
44. Elbaz Y, Schuldiner M. 2011. Staying in touch: the molecular era of organelle contact sites. Trends Biochem Sci 36: 616-23.
45. Dustin ML, Colman DR. 2002. Neural and immunological synaptic relations. Science 298: 785-9.
46. He CY, Pypaert M, Warren G. 2005. Golgi duplication in Trypanosoma brucei requires Centrin2. Science 310: 1196-8.
47. Ward TH, Polishchuk RS, Caplan S, Hirschberg K, et al. 2001. Maintenance of Golgi structure and function depends on the integrity of ER export. J Cell Biol 155: 557-70.