Characterization of a new series of non-covalent proteasome inhibitors with exquisite potency and selectivity for the 20S β5-subunit

Blackburn, Christopher; Gigstad, Kenneth M.; Hales, Paul; Garcia, Khristofer; Jones, Matthew D.; Bruzzese, Frank J.; Barrett, Cynthia; Liu, Jane X.; Soucy, Teresa A.; Sappal, Darshan S.; Bump, Nancy J.; Olhava, Edward J.; Fleming, Paul; Dick, Lawrence R.; Tsu, Christopher; Sintchak, Michael D.; Blank, Jonathan L.

doi:10.1042/bj20100383

Cited by 134 publications

(171 citation statements)

References 53 publications

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“…Hence, the β1i active site preferentially cleaves proteins C-terminally of small hydrophobic and branched amino acids such as Leu, Ile or Val and significantly enhances the production of high-affinity MHC I ligands. The structural features of subunit β1i are in full agreement with the reported β1i-selective fluorogenic substrate Ac-Pro-Ala-Leu-AMC [110] . In addition to the changes in the S1 pocket, the S3 pocket is characterized by the amino acid substitutions T22A (β1i) and A27V (β1i) as well as Y114H in the neighbouring subunit β2i.…”

Section: Structural Analysis Of the Substrate Binding Channelssupporting

confidence: 74%

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Structural and Functional Characterization of the Immunoproteasome

Huber¹

2013

Springer Theses

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Section: Structural Analysis Of the Substrate Binding Channelssupporting

confidence: 74%

“…pockets, the β5i subunit prefers more spacious ones than subunit β5c [110] (see also chapter 6.3.3).…”

Section: Figure 16 Superposition Of the Unprimed β5c And β5i Substratmentioning

confidence: 99%

Structural and Functional Characterization of the Immunoproteasome

Huber¹

2013

Springer Theses

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“…The synthetic route and methods of compound characterization were similar to those reported for N,C-capped dipeptidomimetics (15,28), with modifications as given in the supplemental online material. All compounds were >95% pure.…”

Section: Methodsmentioning

confidence: 91%

“…We cultured Karpas1106P B lymphoma cell line (catalog no. 06072607; Aldrich) (15), mouse bone marrow-derived macrophages (18), PBMCs (17,30), and HepG2 human hepatoma cells (31). Karpas cells were cultured in complete medium and the other cells in complete medium with 10% (vol/vol) FBS instead of 20% (vol/vol), all at 37°C in a humidified air/5% (vol/vol) CO 2 .…”

Section: Methodsmentioning

confidence: 99%

Brief treatment with a highly selective immunoproteasome inhibitor promotes long-term cardiac allograft acceptance in mice

Karreci

Fan

Uehara

et al. 2016

Proc. Natl. Acad. Sci. U.S.A.

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Constitutive proteasomes (c-20S) are ubiquitously expressed cellular proteases that degrade polyubiquitinated proteins and regulate cell functions. An isoform of proteasome, the immunoproteasome (i-20S), is highly expressed in human T cells, dendritic cells (DCs), and B cells, suggesting that it could be a potential target for inflammatory diseases, including those involving autoimmunity and alloimmunity. Here, we describe DPLG3, a rationally designed, noncovalent inhibitor of the immunoproteasome chymotryptic subunit β5i that has thousands-fold selectivity over constitutive β5c. DPLG3 suppressed cytokine release from blood mononuclear cells and the activation of DCs and T cells, diminished accumulation of effector T cells, promoted expression of exhaustion and coinhibitory markers on T cells, and synergized with CTLA4-Ig to promote long-term acceptance of cardiac allografts across a major histocompatibility barrier. These findings demonstrate the potential value of using brief posttransplant immunoproteasome inhibition to entrain a long-term response favorable to allograft survival as part of an immunomodulatory regimen that is neither broadly immunosuppressive nor toxic.

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“…Previous studies have reported that in proteasomes derived from livers of LCMV-infected mice, the three catalytically active constitutive subunits, b1, b2, and b5, are almost completely replaced by the immunoproteasome subunits LMP2, MECL-1, and LMP7 (36). LMP2-deficient and WT immunoproteasomes (from the livers of LCMV-WE-infected mice) were incubated with different concentrations of ML604440 and assayed with a fluorogenic substrate specific for LMP2 activity (Ac-PAL-AMC) (37) (Fig. 2B).…”

Section: Lmp2-selective Inhibition Does Not Alter Uty 246-254 Presentmentioning

confidence: 99%

Why the Structure but Not the Activity of the Immunoproteasome Subunit Low Molecular Mass Polypeptide 2 Rescues Antigen Presentation

Basler

Lauer

Moebius

et al. 2012

The Journal of Immunology

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The proteasome is responsible for the generation of most epitopes presented on MHC class I molecules. Treatment of cells with IFN-γ leads to the replacement of the constitutive catalytic subunits β1, β2, and β5 by the inducible subunits low molecular mass polypeptide (LMP) 2 (β1i), multicatalytic endopeptidase complex-like-1 (β2i), and LMP7 (β5i), respectively. The incorporation of these subunits is required for the production of numerous MHC class I-restricted T cell epitopes. The structural features rather than the proteolytic activity of an immunoproteasome subunit are needed for the generation of some epitopes, but the underlying mechanisms have remained elusive. Experiments with LMP2-deficient splenocytes revealed that the generation of the male HY-derived CTL-epitope UTY246–254 was dependent on LMP2. Treatment of male splenocytes with an LMP2-selective inhibitor did not reduce UTY246–254 presentation, whereas silencing of β1 activity increased presentation of UTY246–254. In vitro degradation experiments showed that the caspase-like activity of β1 was responsible for the destruction of this CTL epitope, whereas it was preserved when LMP2 replaced β1. Moreover, inhibition of the β5 subunit rescued the presentation of the influenza matrix 58–66 epitope, thus suggesting that a similar mechanism can apply to the exchange of β5 by LMP7. Taken together, our data provide a rationale why the structural property of an immunoproteasome subunit rather than its activity is required for the generation of a CTL epitope.

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Characterization of a new series of non-covalent proteasome inhibitors with exquisite potency and selectivity for the 20S β5-subunit

Cited by 134 publications

References 53 publications

Structural and Functional Characterization of the Immunoproteasome

Structural and Functional Characterization of the Immunoproteasome

Brief treatment with a highly selective immunoproteasome inhibitor promotes long-term cardiac allograft acceptance in mice

Why the Structure but Not the Activity of the Immunoproteasome Subunit Low Molecular Mass Polypeptide 2 Rescues Antigen Presentation

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