Tapasin-Mediated Retention and Optimization of Peptide Ligands During the Assembly of Class I Molecules

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Tapasin-Mediated Retention and Optimization of Peptide Ligands During the Assembly of Class I Molecules¹

Megan J. Barnden²^,3^,*, Anthony W. Purcell³^,*, Jeffrey J. Gorman and James McCluskey⁴^,*

^* Department of Microbiology and Immunology, University of Melbourne, Parkville, Victoria, Australia; and Biomolecular Research Institute, Parkville, Victoria, Australia

The murine class I H-2K^b molecule achieves high level surfaceexpression in tapasin-deficient 721.220 human cells. Compared withtheir behavior in wild-type cells, K^b molecules expressed on721.220 cells are more receptive to exogenous peptide, undergomore rapid surface decay, and fail to form macromolecular peptideloading complexes. As a result, they are rapidly transportedto the cell surface, reflecting a failure of endoplasmic reticulum retentionmechanisms in the absence of loading complex formation. Despitethe failure of K^b molecules to colocalize to the TAP and theirrapid egress to the cell surface, K^b is still capable of presentingTAP-dependent peptides in the absence of tapasin. Furthermore,pool sequencing of peptides eluted from these molecules revealedstrict conservation of their canonical H-2K^b-binding motif.There was a reduction in the total recovery of peptides associatedwith K^b molecules purified from the surface of tapasin-deficientcells. Comparison of the peptides bound to K^b in the presenceand absence of tapasin revealed considerable overlap in peptiderepertoire. These results indicate that in the absence of aninteraction with tapasin, K^b molecules fail to assemble withcalreticulin and TAP, yet they are still capable of acquiringa diverse array of peptides. However, a significant proportionof these peptides appear to be suboptimal, resulting in reducedcell surface stability of K^b complexes. Taken together, thefindings indicate that tapasin plays an essential role in theformation of the class I loading complex, which retains classI heterodimers in the endoplasmic reticulum until optimal ligand selectionis completed.

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				S. M. Rizvi and M. Raghavan Direct peptide-regulatable interactions between MHC class I molecules and tapasin PNAS, November 28, 2006; 103(48): 18220 - 18225. [Abstract] [Full Text] [PDF]

				K. M. Paulsson, M. Jevon, J. W. Wang, S. Li, and P. Wang The double lysine motif of tapasin is a retrieval signal for retention of unstable MHC class I molecules in the endoplasmic reticulum. J. Immunol., June 15, 2006; 176(12): 7482 - 7488. [Abstract] [Full Text] [PDF]

				I. A. York, E. P. Grant, A. M. Dahl, and K. L. Rock A Mutant Cell with a Novel Defect in MHC Class I Quality Control J. Immunol., June 1, 2005; 174(11): 6839 - 6846. [Abstract] [Full Text] [PDF]

				D. Zernich, A. W. Purcell, W. A. Macdonald, L. Kjer-Nielsen, L. K. Ely, N. Laham, T. Crockford, N. A. Mifsud, M. Bharadwaj, L. Chang, et al. Natural HLA Class I Polymorphism Controls the Pathway of Antigen Presentation and Susceptibility to Viral Evasion J. Exp. Med., November 8, 2004; (2004) jem.20031680. [Abstract] [Full Text] [PDF]

				M. Zacharias and S. Springer Conformational Flexibility of the MHC Class I {alpha}1-{alpha}2 Domain in Peptide Bound and Free States: A Molecular Dynamics Simulation Study Biophys. J., October 1, 2004; 87(4): 2203 - 2214. [Abstract] [Full Text] [PDF]

				L. Li, B. A. Sullivan, C. J. Aldrich, M. J. Soloski, J. Forman, A. G. Grandea III, P. E. Jensen, and L. Van Kaer Differential Requirement for Tapasin in the Presentation of Leader- and Insulin-Derived Peptide Antigens to Qa-1b-Restricted CTLs J. Immunol., September 15, 2004; 173(6): 3707 - 3715. [Abstract] [Full Text] [PDF]

				M. Howarth, A. Williams, A. B. Tolstrup, and T. Elliott Tapasin enhances MHC class I peptide presentation according to peptide half-life PNAS, August 10, 2004; 101(32): 11737 - 11742. [Abstract] [Full Text] [PDF]

				J. Koch, R. Guntrum, S. Heintke, C. Kyritsis, and R. Tampe Functional Dissection of the Transmembrane Domains of the Transporter Associated with Antigen Processing (TAP) J. Biol. Chem., March 12, 2004; 279(11): 10142 - 10147. [Abstract] [Full Text] [PDF]

				A. W. Purcell and J. J. Gorman Immunoproteomics: Mass Spectrometry-based Methods to Study the Targets of the Immune Response Mol. Cell. Proteomics, March 1, 2004; 3(3): 193 - 208. [Abstract] [Full Text] [PDF]

				H. R. Turnquist, J. L. Petersen, S. E. Vargas, M. M. McIlhaney, E. Bedows, W. E. Mayer, A. G. Grandea III, L. Van Kaer, and J. C. Solheim The Ig-Like Domain of Tapasin Influences Intermolecular Interactions J. Immunol., March 1, 2004; 172(5): 2976 - 2984. [Abstract] [Full Text] [PDF]

				K. M. PAULSSON and P. WANG Quality control of MHC class I maturation FASEB J, January 1, 2004; 18(1): 31 - 38. [Abstract] [Full Text] [PDF]

				L. Sesma, I. Alvarez, M. Marcilla, A. Paradela, and J. A. L. de Castro Species-specific Differences in Proteasomal Processing and Tapasin-mediated Loading Influence Peptide Presentation by HLA-B27 in Murine Cells J. Biol. Chem., November 21, 2003; 278(47): 46461 - 46472. [Abstract] [Full Text] [PDF]

				A. L. Zarling, C. J. Luckey, J. A. Marto, F. M. White, C. J. Brame, A. M. Evans, P. J. Lehner, P. Cresswell, J. Shabanowitz, D. F. Hunt, et al. Tapasin Is a Facilitator, Not an Editor, of Class I MHC Peptide Binding J. Immunol., November 15, 2003; 171(10): 5287 - 5295. [Abstract] [Full Text] [PDF]

				P. J. Chefalo, A. G. Grandea III, L. Van Kaer, and C. V. Harding Tapasin-/- and TAP1-/- Macrophages Are Deficient in Vacuolar Alternate Class I MHC (MHC-I) Processing due to Decreased MHC-I Stability at Phagolysosomal pH J. Immunol., June 15, 2003; 170(12): 5825 - 5833. [Abstract] [Full Text] [PDF]

				B. Seliger, D. Atkins, M. Bock, U. Ritz, S. Ferrone, C. Huber, and S. Storkel Characterization of Human Lymphocyte Antigen Class I Antigen-processing Machinery Defects in Renal Cell Carcinoma Lesions with Special Emphasis on Transporter-associated with Antigen-processing Down-Regulation Clin. Cancer Res., May 1, 2003; 9(5): 1721 - 1727. [Abstract] [Full Text] [PDF]

				B. Park and K. Ahn An Essential Function of Tapasin in Quality Control of HLA-G Molecules J. Biol. Chem., April 11, 2003; 278(16): 14337 - 14345. [Abstract] [Full Text] [PDF]

				A. C. O. Vertegaal, H. B. Kuiperij, A. Houweling, M. Verlaan, A. J. van der Eb, and A. Zantema Differential Expression of Tapasin and Immunoproteasome Subunits in Adenovirus Type 5- Versus Type 12-transformed Cells J. Biol. Chem., January 3, 2003; 278(1): 139 - 146. [Abstract] [Full Text] [PDF]

				T. Yabe, S. Kawamura, M. Sato, K. Kashiwase, H. Tanaka, Y. Ishikawa, Y. Asao, J. Oyama, K. Tsuruta, K. Tokunaga, et al. A subject with a novel type I bare lymphocyte syndrome has tapasin deficiency due to deletion of 4 exons by Alu-mediated recombination Blood, July 30, 2002; 100(4): 1496 - 1498. [Abstract] [Full Text] [PDF]

				K. M. Paulsson, M. J. Kleijmeer, J. Griffith, M. Jevon, S. Chen, P. O. Anderson, H.-O. Sjogren, S. Li, and P. Wang Association of Tapasin and COPI Provides a Mechanism for the Retrograde Transport of Major Histocompatibility Complex (MHC) Class I Molecules from the Golgi Complex to the Endoplasmic Reticulum J. Biol. Chem., May 17, 2002; 277(21): 18266 - 18271. [Abstract] [Full Text] [PDF]

				M.-E. Paquet and D. B. Williams Mutant MHC class I molecules define interactions between components of the peptide-loading complex Int. Immunol., April 1, 2002; 14(4): 347 - 358. [Abstract] [Full Text] [PDF]

Tapasin-Mediated Retention and Optimization of Peptide Ligands During the Assembly of Class I Molecules1

Tapasin-Mediated Retention and Optimization of Peptide Ligands During the Assembly of Class I Molecules¹

				T. Pentcheva, E. T. Spiliotis, and M. Edidin Cutting Edge: Tapasin Is Retained in the Endoplasmic Reticulum by Dynamic Clustering and Exclusion from Endoplasmic Reticulum Exit Sites J. Immunol., February 15, 2002; 168(4): 1538 - 1541. [Abstract] [Full Text] [PDF]

				P. Tan, H. Kropshofer, O. Mandelboim, N. Bulbuc, G. J. Hammerling, and F. Momburg Recruitment of MHC Class I Molecules by Tapasin into the Transporter Associated with Antigen Processing-Associated Complex Is Essential for Optimal Peptide Loading J. Immunol., February 15, 2002; 168(4): 1950 - 1960. [Abstract] [Full Text] [PDF]

				L. Lybarger, Y. Y. L. Yu, T. Chun, C.-R. Wang, A. G. Grandea III, L. Van Kaer, and T. H. Hansen Tapasin Enhances Peptide-Induced Expression of H2-M3 Molecules, but Is Not Required for the Retention of Open Conformers J. Immunol., August 15, 2001; 167(4): 2097 - 2105. [Abstract] [Full Text] [PDF]

				P. J. Chefalo and C. V. Harding Processing of Exogenous Antigens for Presentation by Class I MHC Molecules Involves Post-Golgi Peptide Exchange Influenced by Peptide-MHC Complex Stability and Acidic pH J. Immunol., August 1, 2001; 167(3): 1274 - 1282. [Abstract] [Full Text] [PDF]

				T. Chun, A. G. Grandea III, L. Lybarger, J. Forman, L. Van Kaer, and C.-R. Wang Functional Roles of TAP and Tapasin in the Assembly of M3-N-Formylated Peptide Complexes J. Immunol., August 1, 2001; 167(3): 1507 - 1514. [Abstract] [Full Text] [PDF]

				A. W. Purcell, J. J. Gorman, M. Garcia-Peydro, A. Paradela, S. R. Burrows, G. H. Talbo, N. Laham, C. A. Peh, E. C. Reynolds, J. A. Lopez de Castro, et al. Quantitative and Qualitative Influences of Tapasin on the Class I Peptide Repertoire J. Immunol., January 15, 2001; 166(2): 1016 - 1027. [Abstract] [Full Text] [PDF]