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Literature DB >> 15720436

Stoichiometric tapasin interactions in the catalysis of major histocompatibility complex class I molecule assembly.

Abstract

The assembly of major histocompatibility complex (MHC) class I molecules with their peptide ligands in the endoplasmic reticulum (ER) requires the assistance of many proteins that form a multimolecular assemblage termed the 'peptide-loading complex'. Tapasin is the central stabilizer of this complex, which also includes the transporter associated with antigen processing (TAP), MHC class I molecules, the ER chaperone, calreticulin, and the thiol-oxidoreductase ERp57. In the present report, we investigated the requirements of these interactions for tapasin protein stability and MHC class I dissociation from the peptide-loading complex. We established that tapasin is stable in the absence of either TAP or MHC class I interaction. In the absence of TAP, tapasin interaction with MHC class I molecules is long-lived and results in the sequestration of existing tapasin molecules. In contrast, in TAP-sufficient cells, tapasin is re-utilized to interact with and facilitate the assembly of many MHC class I molecules sequentially. Furthermore, chemical cross-linking has been utilized to characterize the interactions within this complex. We demonstrate that tapasin and MHC class I molecules exist in a 1 : 1 complex without evidence of higher-order tapasin multimers. Together these studies shed light on the tapasin protein life cycle and how it functions in MHC class I assembly with peptide for presentation to CD8(+) T cells.

Entities: Gene

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Year: 2005 PMID： 15720436 PMCID： PMC1782088 DOI： 10.1111/j.1365-2567.2005.02103.x

Source DB: PubMed Journal: Immunology ISSN： 0019-2805 Impact factor: 7.397

30 in total

1. Two new proteases in the MHC class I processing pathway.

Authors: L Stoltze; M Schirle; G Schwarz; C Schröter; M W Thompson; L B Hersh; H Kalbacher; S Stevanovic; H G Rammensee; H Schild
Journal: Nat Immunol Date: 2000-11 Impact factor: 25.606

2. Optimization of the MHC class I peptide cargo is dependent on tapasin.

Authors: Anthony P Williams; Chen Au Peh; Anthony W Purcell; James McCluskey; Tim Elliott
Journal: Immunity Date: 2002-04 Impact factor: 31.745

3. Disulfide bond isomerization and the assembly of MHC class I-peptide complexes.

Authors: Tobias P Dick; Naveen Bangia; David R Peaper; Peter Cresswell
Journal: Immunity Date: 2002-01 Impact factor: 31.745

4. Assembly and antigen-presenting function of MHC class I molecules in cells lacking the ER chaperone calreticulin.

Authors: Bin Gao; Raju Adhikari; Mark Howarth; Kimitoshi Nakamura; Marielle C Gold; Ann B Hill; Rai Knee; Marek Michalak; Tim Elliott
Journal: Immunity Date: 2002-01 Impact factor: 31.745

5. Glycoproteins form mixed disulphides with oxidoreductases during folding in living cells.

Authors: M Molinari; A Helenius
Journal: Nature Date: 1999-11-04 Impact factor: 49.962

6. The N-terminal region of tapasin is required to stabilize the MHC class I loading complex.

Authors: N Bangia; P J Lehner; E A Hughes; M Surman; P Cresswell
Journal: Eur J Immunol Date: 1999-06 Impact factor: 5.532

7. A major role for tapasin as a stabilizer of the TAP peptide transporter and consequences for MHC class I expression.

Authors: Natalio Garbi; Neeraj Tiwari; Frank Momburg; Günter J Hämmerling
Journal: Eur J Immunol Date: 2003-01 Impact factor: 5.532

8. Functional dissection of the transmembrane domains of the transporter associated with antigen processing (TAP).

Authors: Joachim Koch; Renate Guntrum; Susanne Heintke; Christoph Kyritsis; Robert Tampé
Journal: J Biol Chem Date: 2003-12-15 Impact factor: 5.157

9. Tapasin is a facilitator, not an editor, of class I MHC peptide binding.

Authors: Angela L Zarling; Chance John Luckey; Jarrod A Marto; Forest M White; Cynthia J Brame; Anne M Evans; Paul J Lehner; Peter Cresswell; Jeffrey Shabanowitz; Donald F Hunt; Victor H Engelhard
Journal: J Immunol Date: 2003-11-15 Impact factor: 5.422

10. Tapasin interacts with the membrane-spanning domains of both TAP subunits and enhances the structural stability of TAP1 x TAP2 Complexes.

Authors: Gayatri Raghuraman; Philip Edward Lapinski; Malini Raghavan
Journal: J Biol Chem Date: 2002-09-03 Impact factor: 5.157

8 in total

1. Identification and regulatory analysis of rainbow trout tapasin and tapasin-related genes.

Authors: Eric D Landis; Yniv Palti; Jenefer Dekoning; Robert Drew; Ruth B Phillips; John D Hansen
Journal: Immunogenetics Date: 2006-01-27 Impact factor: 2.846

2. Human cytomegalovirus disrupts the major histocompatibility complex class I peptide-loading complex and inhibits tapasin gene transcription.

Authors: Anne Halenius; Sebastian Hauka; Lars Dölken; Jan Stindt; Henrike Reinhard; Constanze Wiek; Helmut Hanenberg; Ulrich H Koszinowski; Frank Momburg; Hartmut Hengel
Journal: J Virol Date: 2011-01-19 Impact factor: 5.103

3. Synergism of tapasin and human leukocyte antigens in resolving hepatitis C virus infection.

Authors: Shirin Ashraf; Katja Nitschke; Usama M Warshow; Collin R Brooks; Arthur Y Kim; Georg M Lauer; Theresa J Hydes; Matthew E Cramp; Graeme Alexander; Ann-Margaret Little; Robert Thimme; Christoph Neumann-Haefelin; Salim I Khakoo
Journal: Hepatology Date: 2013-07-29 Impact factor: 17.425

4. Tapasin-related protein TAPBPR is an additional component of the MHC class I presentation pathway.

Authors: Louise H Boyle; Clemens Hermann; Jessica M Boname; Keith M Porter; Peysh A Patel; Marian L Burr; Lidia M Duncan; Michael E Harbour; David A Rhodes; Karsten Skjødt; Paul J Lehner; John Trowsdale
Journal: Proc Natl Acad Sci U S A Date: 2013-02-11 Impact factor: 11.205