The specificity of proteasomes: impact on MHC class I processing and presentation of antigens

Niedermann, Gabriele; Geier, E.; Lucchiari-Hartz, Maria; Hitziger, Niclas; Ramsperger, Arne; Eichmann, Klaus

doi:10.1111/j.1600-065x.1999.tb01354.x

Cited by 65 publications

(39 citation statements)

References 101 publications

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“…In eukaryotic cells, most proteins destined for degradation are initially tagged with a polyubiquitin chain in an energy-dependent process and then digested into peptides containing two to 20 amino acids by the 26S proteasome, which is a large proteolytic complex involved in the regulation of cell division, gene expression, and other key processes (37,38). Thus, the concomitant action of proteasomes and other extra lysosomal proteolytic systems (3,39) at different intracellular locations means that there is continuous formation and release of free peptides within mammalian cells (5,6). Intriguingly, very little is known about the identity of the intracellular peptides formed during normal protein turnover, and these are thought to be rapidly destroyed by amino peptidases that release amino acids for de novo protein synthesis.…”

Section: Discussionmentioning

confidence: 99%

Similar Intracellular Peptide Profile of TAP1/β2 Microglobulin Double-Knockout Mice and C57BL/6 Wild-Type Mice as Revealed by Peptidomic Analysis

Castro

Berti²,

Russo³

et al. 2010

AAPS J

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Abstract. Cells produce and use peptides in distinctive ways. In the present report, using isotope labeling plus semi-quantitative mass spectrometry, we evaluated the intracellular peptide profile of TAP1/β2m −/− (transporter associated with antigen-processing 1/ß2 microglobulin) double-knockout mice and compared it with that of C57BL/6 wild-type animals. Overall, 92 distinctive peptides were identified, and most were shown to have a similar concentration in both mouse strains. However, some peptides showed a modest increase or decrease (~2-fold), whereas a glycine-rich peptide derived from the C-terminal of neurogranin (KGPGPGGPGGAGGARGGAGGGPSGD) showed a substantial increase (6-fold) in TAP1/β2m −/− mice. Thus, TAP1 and β2microglobulin have a small influence on the peptide profile of neuronal tissue, suggesting that the presence of peptides derived from intracellular proteins in neuronal tissue is not associated with antigens of the class I major histocompatibility complex. Therefore, it is possible that these intracellular peptides play a physiological role.

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Section: Discussionmentioning

confidence: 99%

Similar Intracellular Peptide Profile of TAP1/β2 Microglobulin Double-Knockout Mice and C57BL/6 Wild-Type Mice as Revealed by Peptidomic Analysis

Castro

Berti²,

Russo³

et al. 2010

AAPS J

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“…[4,13] A small fraction of the peptides generated by the proteasome are presented by major histocompatibility complex class I molecules on the cell surface, and thus play a role in immune surveillance. [14][15][16][17] Therefore, inhibitors that selectively block proteolytic activities of the proteasome are of therapeutic potential for the treatment of cancer, inflammatory disorders, and immune diseases. [18][19][20] Many proteasome inhibitors have been developed, such as synthetic peptide aldehydes, [1] boronates, [21] or vinylsulfones, [22] as well as the natural products lactacystin [23] and epoxomicin.…”

Section: Introductionmentioning

confidence: 99%

Simplified Synthetic TMC‐95A/B Analogues Retain the Potency of Proteasome Inhibitory Activity

et al. 2003

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The proteasome regulates diverse intracellular processes, including cell-cycle progression, antigen presentation, and inflammatory response. Selective inhibitors of the proteasome have great therapeutic potential for the treatment of cancer and inflammatory disorders. Natural cyclic peptides TMC-95A and B represent a new class of noncovalent, selective proteasome inhibitors. To explore the structure-activity relationship of this class of proteasome inhibitors, a series of TMC-95A/B analogues were prepared and analyzed. We found that the unique enamide functionality at the C-8 position of TMC-95s can be replaced with a simple allylamide. The asymmetric center at C-36 that distinguishes TMC-95A from TMC-95B but which necessitates a complicated separation of the two compounds can be eliminated. Therefore, these findings could lead to the development of more accessible simple analogues as potential therapeutic agents.

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“…Its catalytic core, referred as the 20 S proteasome, is a threonine protease containing at least three distinct proteolytic activities: chymotrypsin-like, trypsin-like, and peptidylglutamyl peptide-hydrolyzing (PGPH) 1 activities (4,5). Proteasomal degradation of proteins is critical for the regulation of cellular function and homeostasis such as progression of the cell cycle (6), apoptosis (7,8), oncogenesis (9 -11), transcription (12), cell adhesion (13), migration (14), angiogenesis (15), antigen presentation (16), and selective elimination of abnormal proteins.…”

mentioning

confidence: 99%

Induction of G1 Arrest and Apoptosis in Human Jurkat T Cells by Pentagalloylglucose through Inhibiting Proteasome Activity and Elevating p27Kip1, p21Cip1/WAF1, and Bax Proteins

Chen

Lin

2004

Journal of Biological Chemistry

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Pentagalloylglucose, which is found in many medicinal plants, can arrest the cell cycle at G 1 phase through down-regulation of cyclin-dependent kinases 2 and 4 and up-regulation of the cyclin-dependent kinase inhibitors p27 Kip1 and p21 Cip1/WAF1 in human breast cancer cells. Pentagalloylglucose also induces apoptosis in human leukemic cells. However, the mechanisms by which pentagalloylglucose induces these effects is unclear. We now show that pentagalloylglucose inhibits the activities of purified 20 and 26 S proteasomes in vitro, the 26 S proteasome in Jurkat T cell lysates, and chymotrypsinlike activity of the 26 S proteasome in intact Jurkat T cells. The turnover of p27 Kip1 and p21 Cip1/WAF1 , which is necessary for cell cycle progression mediated by proteasome degradation, was disrupted by treatment of human Jurkat T cells with pentagalloylglucose. This was shown by cycloheximide treatment and in vivo pulsechase labeling experiments, and this effect correlated with the arrest of proliferation of Jurkat T cells at G 1 . Inhibition of the proteasome by pentagalloylglucose and by the proteasome inhibitor MG132 caused accumulation of ubiquitin-tagged proteins in Jurkat T cells. The addition of pentagalloylglucose to Jurkat T cells enhanced the stability of the proteasome substrate Bax and increased cytochrome c release and apoptosis. Our findings suggest a mechanism for the effect of pentagalloylglucose on the cell cycle in human leukemic cells: that pentagalloylglucose down-regulates proteasomemediated pathways because it is a proteasome inhibitor.In eukaryotic cells, there are two distinct proteolytic mechanisms essential for regulating levels of cellular proteins. One is lysosomal mediated degradation, which is involved in the breakdown of intracellular proteins under conditions of cellular stress, membrane-associated proteins, and proteins that have entered the cell by endocytosis. The ubiquitin-proteasome pathway is the other mechanism responsible for the turnover of intracellular proteins. This second system works by marking specific substrates with ubiquitins and degrading the marked proteins by the 26 S proteasome in an ATP-dependent manner.

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The specificity of proteasomes: impact on MHC class I processing and presentation of antigens

Cited by 65 publications

References 101 publications

Similar Intracellular Peptide Profile of TAP1/β2 Microglobulin Double-Knockout Mice and C57BL/6 Wild-Type Mice as Revealed by Peptidomic Analysis

Similar Intracellular Peptide Profile of TAP1/β2 Microglobulin Double-Knockout Mice and C57BL/6 Wild-Type Mice as Revealed by Peptidomic Analysis

Simplified Synthetic TMC‐95A/B Analogues Retain the Potency of Proteasome Inhibitory Activity

Induction of G1 Arrest and Apoptosis in Human Jurkat T Cells by Pentagalloylglucose through Inhibiting Proteasome Activity and Elevating p27Kip1, p21Cip1/WAF1, and Bax Proteins

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