A Giant Protease with Potential to Substitute for Some Functions of the Proteasome

Geier, Elke; Pfeifer, Günter; Wilm, Matthias; Lucchiari-Hartz, Maria; Baumeister, Wolfgang; Eichmann, Klaus; Niedermann, Gabriele

doi:10.1126/science.283.5404.978

Cited by 339 publications

(348 citation statements)

References 21 publications

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“…The emerging picture of MHC-I antigen processing incorporates novel proteolytic enzymes next to the multicatalytic proteasome complex as the central player [6][7][8][9]. Most of these novel breakdown systems liberate peptides in the cytosol and produce substrates that still need TAP transport for MHC-I loading.…”

Section: Discussionmentioning

confidence: 99%

“…The highly complex repertoire of MHC-I presented peptides reflects the total proteome of cells and derives from the physiological turnover of proteins, a process that is largely operated by the multicatalytic enzyme proteasome [4,5]. In addition to the proteasome, other proteolytic enzymes in the cytosol have been implicated in the liberation of peptides for MHC-I presentation, some of which can compensate for the lack of proteasome activity [1,6,7]. For instance, tripeptidyl peptidase II (TPPII), insulin-degrading enzyme (IDE), thimet oligopeptidase (TOP) and nardilysin have been implicated in the generation of some CTL epitopes [8][9][10].…”

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confidence: 99%

“…We anticipate that the expression levels of these proteins or the rate of peptide formation is higher than that of TEIPPs. Consequently, the immunogenicity of these peptides is expected to be much lower, due to central and peripheral T-cell tolerance, as these peptides are derived from ubiquitously expressed housekeeping proteins.The emerging picture of MHC-I antigen processing incorporates novel proteolytic enzymes next to the multicatalytic proteasome complex as the central player [6][7][8][9]. Most of these novel breakdown systems liberate peptides in the cytosol and produce substrates that still need TAP transport for MHC-I loading.…”

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confidence: 99%

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Peptide transporter TAP mediates between competing antigen sources generating distinct surface MHC class I peptide repertoires

et al. 2011

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We recently described a category of TAP-independent peptide-epitopes that are selectively presented by cells with processing defects in the classical MHC class I (MHC-I) pathway. Here, we studied the ER-resident ceramide synthase Trh4 as a prototypic example of these neo-antigens and found that moderate inhibition of TAP permits cell surface presentation of the Trh4 peptide. The absence of this peptide from WT cells was not related to the binding or stability of the Trh4/D b complexes, or to the availability of MHC-I heavy chains, but rather to the limited expression of the antigen. Strongly elevated antigen levels were needed to reach comparable peptide display on WT as on TAP-deficient cells. Our data suggest that the normal influx of TAP-transported peptides in the ER during routine processing creates an efficient barrier for peptides from alternative processing routes. Impairment of TAP function, as commonly found in cancers and virus-infected cells, lowers this resistance allowing for MHC-I presentation of other peptide sources.Key words: Antigen processing . Cytotoxic T lymphocytes . Transporter associated with peptide processing Supporting Information available online IntroductionCytotoxic T lymphocytes (CTLs) are key effector cells of the adaptive immune system and circulate throughout the body in search of their cognate peptides that are presented by MHC class I (MHC-I) molecules. T-cell receptors determine the antigen specificity of CTLs and engagement with peptide/MHC-I complexes leads to their activation and elimination of target cells. Therefore, the process of MHC-I antigen processing and presentation, which operates in all nucleated cells of our body, is crucial for CTL immune surveillance [1][2][3]. The highly complex repertoire of MHC-I presented peptides reflects the total proteome of cells and derives from the physiological turnover of proteins, a process that is largely operated by the multicatalytic enzyme proteasome [4,5]. In addition to the proteasome, other proteolytic enzymes in the cytosol have been implicated in the liberation of peptides for MHC-I presentation, some of which can compensate for the lack of proteasome activity [1,6,7]. For instance, tripeptidyl peptidase II (TPPII), insulin-degrading enzyme (IDE), thimet oligopeptidase (TOP) and nardilysin have been implicated in the generation of some CTL epitopes [8][9][10]. However, the relative contributions of these novel peptidases and Ã These authors contributed equally to this work 3114their cooperation with the proteasome have not been fully characterized.The intermediate peptide products are rescued from total breakdown by these cytosolic proteases through translocation into the ER. Subsequently, peptides are trimmed and loaded into the grooves of MHC-I molecules, a dynamic process that is mediated by the peptide loading complex (PLC) consisting of MHC-I, b2m, ERp57, TAP, tapasin and chaperones [11][12][13]. The TAP peptide transport is operated by the heterodimer pump TAP1/TAP2, members of the ABC transporter family. The imp...

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Section: Discussionmentioning

confidence: 99%

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Peptide transporter TAP mediates between competing antigen sources generating distinct surface MHC class I peptide repertoires

et al. 2011

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“…No other peptidases were identified among the analyzed spots. TPP II is a very large homomultimeric peptidase (molecular mass 5000 -9000 kDa), with subunit molecular mass 138 kDa, that removes tripeptides from the N terminus of peptides and also displays endoproteolytic activities (30,31). Based on indirect evidence, TPP II has been suggested to participate in the MHC class I Ag-processing pathway, as it may partially compensate for the generation of MHC class I ligands, in situations in which proteasomes are pharmacologically inactivated (32).…”

Section: Tpp II Mediates the Initial Trimming Of Ru1 29 -47 Precursormentioning

confidence: 99%

“…The same digestions were also performed in the presence of butabindide, a specific TPP II inhibitor (Fig. 5, D-F) (35); AAF-CMK, an inhibitor of TPP II, PSA, and bleomycin hydrolase (G-I) (13,30); and puromycin, a specific PSA inhibitor (J-L) (34). In the case of RU1 29 -47 , a fragment displaying the final N terminus of the antigenic peptide was readily detectable after incubation with untreated cytosol (Fig.…”

Section: Precursors Is Sensitive To Specific Tpp II and Psa Inhibitorsmentioning

confidence: 99%

The Final N-Terminal Trimming of a Subaminoterminal Proline-Containing HLA Class I-Restricted Antigenic Peptide in the Cytosol Is Mediated by Two Peptidases

Lévy

Burri

Morel

et al. 2002

The Journal of Immunology

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The proteasome produces MHC class I-restricted antigenic peptides carrying N-terminal extensions, which are trimmed by other peptidases in the cytosol or within the endoplasmic reticulum. In this study, we show that the N-terminal editing of an antigenic peptide with a predicted low TAP affinity can occur in the cytosol. Using proteomics, we identified two cytosolic peptidases, tripeptidyl peptidase II and puromycin-sensitive aminopeptidase, that trimmed the N-terminal extensions of the precursors produced by the proteasome, and led to a transient enrichment of the final antigenic peptide. These peptidases acted either sequentially or redundantly, depending on the extension remaining at the N terminus of the peptides released from the proteasome. Inhibition of these peptidases abolished the CTL-mediated recognition of Ag-expressing cells. Although we observed some proteolytic activity in fractions enriched in endoplasmic reticulum, it could not compensate for the loss of tripeptidyl peptidase II/puromycin-sensitive aminopeptidase activities.

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Characterization of thiol-, aspartyl-, and thiol-metallo-peptidase activities in Madin-Darby canine kidney cells

et al. 2000

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We combined fluorogenic substrates or internally quenched fluorescent peptides with specific inhibitors in the pH profile of proteolytic activity experiments in order to detect proteolytic activities in lysates of MDCK cells. Hydrolytic activities related to cathepsin B, L, and D were observed. Serine-proteinase was not detected; however, we clearly demonstrated the presence of a thiol-metallo-endo-oligopeptidase, also called thimet-oligopeptidase (TOP). This peptidase from MDCK cells has substrate and inhibitor specificities as well as an activation profile with mercaptoethanol that are indistinguishable from the recombinant rat testis TOP (EC 3. 4.24.15). In addition, polyclonal purified antibodies to this enzyme depleted the TOP activity of MDCK cells in whole homogenate. Although we present only preliminary data, TOP is secreted by MDCK cells. The presence of TOP in a phenotype polarized MDCK cells can have special significance in the cytoplasmic selection, transport, or clearance of short peptides due to restriction of the enzyme to sequences from 6 to 17 amino acids. Therefore, the MDCK cell could be a very useful cellular model with which to study some of the suggested TOP biological functions as processing of biological active peptides and antigen presentation.

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A Giant Protease with Potential to Substitute for Some Functions of the Proteasome

Cited by 339 publications

References 21 publications

Peptide transporter TAP mediates between competing antigen sources generating distinct surface MHC class I peptide repertoires

Peptide transporter TAP mediates between competing antigen sources generating distinct surface MHC class I peptide repertoires

The Final N-Terminal Trimming of a Subaminoterminal Proline-Containing HLA Class I-Restricted Antigenic Peptide in the Cytosol Is Mediated by Two Peptidases

Characterization of thiol-, aspartyl-, and thiol-metallo-peptidase activities in Madin-Darby canine kidney cells

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