ERGIC-53 is a functional mannose-selective and calcium-dependent human homologue of leguminous lectins

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ERGIC-53 is a functional mannose-selective and calcium-dependent human homologue of leguminous lectins

C Itin, AC Roche, M Monsigny and HP Hauri

Department of Pharmacology, University of Basel, Switzerland.

Based on sequence homologies with leguminous lectins, the intermediate compartment marker ERGIC-53 was proposed to be a member of a putative new class of animal lectins associated with the secretory pathway. Independent, a promyelocytic protein, MR60, was purified by mannose- column chromatography, and a cDNA was isolated that matched MR60 peptide sequences. This cDNA was identical to that of ERGIC-53 and homologies with the animal lectin family of the galectins were noticed. Not all peptide sequences of MR60, however, were found in ERGIC-53, raising the possibility that another protein associated with ERGIC-53 may possess the lectin activity. Here, we provide the first direct evidence for a lectin function of ERGIC-53. Overexpressed ERGIC-53 binds to a mannose column in a calcium-dependent manner and also co- stains with mannosylated neoglycoprotein in a morphological binding assay. By using a sequential elution protocol we show that ERGIC-53 has selectivity for mannose and low affinity for glucose and GlcNAc, but no affinity for galactose. To experimentally address the putative homology of ERGIC-53 to leguminous lectins, a highly conserved protein family with an invariant asparagine essential for carbohydrate binding, we substituted the corresponding asparagine in ERGIC-53. This mutation, as well as a mutation affecting a second site in the putative carbohydrate recognition domain, abolished mannose-column binding and co-staining with mannosylated neoglycoprotein. These findings establish ERGIC-53 as a lectin and provide functional evidence for its relationship to leguminous lectins. Based on its monosaccharide specificity, domain organization, and recycling properties, we propose ERGIC-53 to function as a sorting receptor for glyco-proteins in the early secretory pathway.

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				N. Kawasaki, I. Matsuo, K. Totani, D. Nawa, N. Suzuki, D. Yamaguchi, N. Matsumoto, Y. Ito, and K. Yamamoto Detection of Weak Sugar Binding Activity of VIP36 using VIP36-streptavidin Complex and Membrane-based Sugar Chains J. Biochem., February 1, 2007; 141(2): 221 - 229. [Abstract] [Full Text] [PDF]

				L. Mattioli, T. Anelli, C. Fagioli, C. Tacchetti, R. Sitia, and C. Valetti ER storage diseases: a role for ERGIC-53 in controlling the formation and shape of Russell bodies J. Cell Sci., June 15, 2006; 119(12): 2532 - 2541. [Abstract] [Full Text] [PDF]

				C. Appenzeller-Herzog and H.-P. Hauri The ER-Golgi intermediate compartment (ERGIC): in search of its identity and function J. Cell Sci., June 1, 2006; 119(11): 2173 - 2183. [Abstract] [Full Text] [PDF]

				T. Satoh, K. Sato, A. Kanoh, K. Yamashita, Y. Yamada, N. Igarashi, R. Kato, A. Nakano, and S. Wakatsuki Structures of the Carbohydrate Recognition Domain of Ca2+-independent Cargo Receptors Emp46p and Emp47p J. Biol. Chem., April 14, 2006; 281(15): 10410 - 10419. [Abstract] [Full Text] [PDF]

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				B. Zhang, R. J. Kaufman, and D. Ginsburg LMAN1 and MCFD2 Form a Cargo Receptor Complex and Interact with Coagulation Factor VIII in the Early Secretory Pathway J. Biol. Chem., July 8, 2005; 280(27): 25881 - 25886. [Abstract] [Full Text] [PDF]

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				N. Sharon and H. Lis History of lectins: from hemagglutinins to biological recognition molecules Glycobiology, November 1, 2004; 14(11): 53R - 62R. [Abstract] [Full Text] [PDF]

				C. Appenzeller-Herzog, A.-C. Roche, O. Nufer, and H.-P. Hauri pH-induced Conversion of the Transport Lectin ERGIC-53 Triggers Glycoprotein Release J. Biol. Chem., March 26, 2004; 279(13): 12943 - 12950. [Abstract] [Full Text] [PDF]

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				L. M. Velloso, K. Svensson, G. Schneider, R. F. Pettersson, and Y. Lindqvist Crystal Structure of the Carbohydrate Recognition Domain of p58/ERGIC-53, a Protein Involved in Glycoprotein Export from the Endoplasmic Reticulum J. Biol. Chem., May 3, 2002; 277(18): 15979 - 15984. [Abstract] [Full Text] [PDF]

				S. Hara-Kuge, T. Ohkura, H. Ideo, O. Shimada, S. Atsumi, and K. Yamashita Involvement of VIP36 in Intracellular Transport and Secretion of Glycoproteins in Polarized Madin-Darby Canine Kidney (MDCK) Cells J. Biol. Chem., May 3, 2002; 277(18): 16332 - 16339. [Abstract] [Full Text] [PDF]

				R. B. Dodd and K. Drickamer Lectin-like proteins in model organisms: implications for evolution of carbohydrate-binding activity Glycobiology, May 1, 2001; 11(5): 71R - 79R. [Abstract] [Full Text] [PDF]

ERGIC-53 is a functional mannose-selective and calcium-dependent human homologue of leguminous lectins

Volume 7, Issue 3, pp. 483-493, 03/01/1996 Copyright © 1996 by The American Society for Cell Biology

Volume 7, Issue 3, pp. 483-493, 03/01/1996
Copyright © 1996 by The American Society for Cell Biology

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				H. Hauri, F Kappeler, H Andersson, and C Appenzeller ERGIC-53 and traffic in the secretory pathway J. Cell Sci., January 2, 2000; 113(4): 587 - 596. [Abstract] [PDF]

				H. Andersson, F. Kappeler, and H.-P. Hauri Protein Targeting to Endoplasmic Reticulum by Dilysine Signals Involves Direct Retention in Addition to Retrieval J. Biol. Chem., May 21, 1999; 274(21): 15080 - 15084. [Abstract] [Full Text] [PDF]

				M. Neerman-Arbez, K.M. Johnson, M.A. Morris, J.H. McVey, F. Peyvandi, W.C. Nichols, D. Ginsburg, C. Rossier, S.E. Antonarakis, and E.G.D. Tuddenham Molecular Analysis of the ERGIC-53 Gene in 35�Families With Combined Factor V-Factor VIII Deficiency Blood, April 1, 1999; 93(7): 2253 - 2260. [Abstract] [Full Text] [PDF]

				W. C. Nichols, V. H. Terry, M. A. Wheatley, A. Yang, A. Zivelin, N. Ciavarella, C. Stefanile, T. Matsushita, H. Saito, N. B. de Bosch, et al. ERGIC-53 Gene Structure and Mutation Analysis in 19�Combined Factors V and VIII Deficiency Families Blood, April 1, 1999; 93(7): 2261 - 2266. [Abstract] [Full Text] [PDF]

				A. R. Tobler, L. Notterpek, R. Naef, V. Taylor, U. Suter, and E. M. Shooter Transport of Trembler-J Mutant Peripheral Myelin Protein 22�Is Blocked in the Intermediate Compartment and Affects the Transport of the Wild-Type Protein by Direct Interaction J. Neurosci., March 15, 1999; 19(6): 2027 - 2036. [Abstract] [Full Text] [PDF]

				M. Aridor, S. I. Bannykh, T. Rowe, and W. E. Balch Cargo Can Modulate COPII Vesicle Formation from the Endoplasmic Reticulum J. Biol. Chem., February 12, 1999; 274(7): 4389 - 4399. [Abstract] [Full Text] [PDF]

				J Fullekrug, P Scheiffele, and K Simons VIP36 localisation to the early secretory pathway J. Cell Sci., January 9, 1999; 112(17): 2813 - 2821. [Abstract] [PDF]

				S. Kolset, T. Vuong, and K Prydz Apical secretion of chondroitin sulphate in polarized Madin-Darby canine kidney (MDCK) cells J. Cell Sci., January 6, 1999; 112(11): 1797 - 1801. [Abstract] [PDF]

				J. Greenfield and S High The Sec61 complex is located in both the ER and the ER-Golgi intermediate compartment J. Cell Sci., January 5, 1999; 112(10): 1477 - 1486. [Abstract] [PDF]