EC:3.4.25.1 - FACTA Search

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Query: EC:3.4.25.1 (proteasome)
28,817 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The Yoshida sarcoma (YS) is characterized by growth as "free cells" in ascites. Long-survival Yoshida sarcoma (LY) variants, which develop after transplantation of YS into immunologically conditioned Donryu rats, in contrast, form "islands" in ascites. A representational difference analysis (RDA) approach was adopted to isolate genes differentially expressed between YS and LY variants to elucidate the molecular mechanism of their development. Fifteen clones presenting differences in expression were characterized. Nine genes (those encoding for the high-affinity IgE receptor gamma chain, pJG116 repetitive sequence, non neuronal enolase, proteasome subunit RC1, cytotoxic T lymphocyte-associated gene transcript CTLA-1, interleukin-2 receptor gamma chain, and three unknown sequences) expressed mRNA in YS, but showed lower or no expression of mRNA in LYs. The mRNAs of the other six genes (those encoding for cytokeratin 8, cytokeratin18 (Endo B), TIMP2 and three unknown sequences) were not found in YS, but were present in LYs. Interestingly, CTLA-1 is a non-epithelial (hematopoietic) cell-specific gene in terms of transcription, while cytokeratin 8 and cytokeratin 18 are both epithelium-specific genes. Immunohistochemically, YS expressed T-cell specific antigens CD2 and CD3, and T cell receptor beta and gamma chain genes were rearranged in YS, but not in LYs. Moreover, using restriction fragment length polymorphism probes, we found that LYs exhibited different cell lineage from YS. Thus, our present findings, unexpectedly, raise fundamental questions concerning the cellular origins of YS and LY variants rather than pointing to any specific mechanism to explain the LY phenomenon.
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PMID:Isolation of genes differentially expressed between the Yoshida sarcoma and long-survival Yoshida sarcoma variants: origin of Yoshida sarcoma revisited. 782 94

Recent work suggests that the proteolytic degradation of the nuclear lamins is a common event in apoptosis, although the nature of the proteases involved is still not clear. Our previous work showed that the degradation of lamin B1 in glucocorticoid-treated thymocytes occurs via a Ca2+-sensitive mechanism and that exogenous Ca2+ promotes lamin degradation in isolated thymocyte nuclei from untreated cells. Here we demonstrate that peptide-based inhibitors of the interleukin 1beta-converting enzyme family of cysteine proteases (Tyr-Val-Ala-Asp fluoromethyl ketone) and of the nuclear scaffold multicatalytic proteinase (Ala-Pro-Phe chloromethyl ketone) block the degradation of lamin B1 to a 21-kDa fragment in thymocytes treated with glucocorticoid, the Ca2+-mobilizing agent thapsigargin, or antibodies to the T cell receptor. However, among a panel of inhibitors specific for several different proteases implicated in apoptosis, only tosylphenylalanyl chloromethyl ketone and the nuclear scaffold protease inhibitor block lamin degradation, histone H1 cleavage, and DNA fragmentation in isolated thymocyte nuclei incubated with Ca2+. Overexpression of human BCL-2 in nuclei by stable transfection resulted in an inhibition of Ca2+-stimulated lamin degradation and DNA fragmentation, suggesting that endogenous nuclear BCL-2 regulates activation of the nuclear scaffold protease. The results demonstrate the existence of an alternative pathway of lamin degradation and DNA fragmentation mediated by a resident Ca2+-stimulated nuclear protease that is not directly dependent upon activation of the interleukin 1beta-converting enzyme family of cell death regulators.
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PMID:Calcium-dependent, interleukin 1-converting enzyme inhibitor-insensitive degradation of lamin B1 and DNA fragmentation in isolated thymocyte nuclei. 879 2

The P91A antigen was identified following mutation of P1 mastocytoma cells. The peptide epitope is encoded by a mutant form of the S3 subunit of the PA700 proteasome regulatory complex. P91A stimulates a strong CD8+ T cell response when expressed on tumor cells or normal tissue and P91A-specific T cells express a restricted range of T cell receptors. Although it is a strong Ld-binding peptide, P91A does not conform to the established motif for this major histocompatibility complex (MHC) molecule and this has hampered elucidation of the precise epitope. Ld predominantly associates with nonamer peptides; however, using a variety of complementary approaches, the P91A epitope is identified as the octamer QNHRALDL. In the absence of the Ld motif residue proline at position 2, residues 5-7 are primarily involved in MHC interaction. P91A is thus atypical in its interaction with Ld. Residues 1, 3, and 4 are found to influence T cell recognition of P91A. Definition of the P91A peptide will allow studies on P91A processing and interactions of the P91A peptide/MHC complex with T cell receptors of differing avidity to establish the basis for restricted T cell receptor usage. The basis for the failure of the P91A tum+ peptide (QNRRALDL) to bind to Ld is addressed by molecular modeling.
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PMID:Major histocompatibility complex and T cell receptor interaction of the P91A tum- peptide. 897 83

To reach the cell surface, the T cell receptor for antigen (TCR)-CD3 complex must assemble in the endoplasmic reticulum (ER), where single subunits are retained and degraded. However, the exact location of breakdown and the mechanism and proteases involved in destruction of free subunits have remained elusive. We show that degradation of the TCR alpha chain is impaired in the presence of lactacystin and carboxybenzyl-leucyl-leucyl-leucinal, two inhibitors for proteasomal proteolysis. We identified breakdown intermediates that were either soluble, cytosolic, and devoid of N-linked glycans, or membrane-associated and partially deglycosylated by cytosolic N-glycanase. Protease protection experiments showed a cytosolic disposition of these membrane-associated intermediates. Combined, these results argue for a cytosolic degradation route of the TCR alpha chain involving dislocation from the ER, followed by cytosolic deglycosylation and proteolysis by the proteasome.
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PMID:The alpha chain of the T cell antigen receptor is degraded in the cytosol. 925 24

During T cell development, assembly of the mutisubunit T cell receptor (TCR) complex is regulated by the differential stability of newly synthesized TCRalpha molecules, having a half-life of approximately 20 min in immature CD4+CD8+ thymocytes compared with >75 min in mature T cells. The molecular basis for TCRalpha instability in CD4+CD8+ thymocytes is unknown but has been postulated to involve abnormalities in N-glycan processing and calnexin assembly as perturbation of these pathways markedly destabilizes TCRalpha proteins in all other T cell types examined. Here, we compared the processing of TCRalpha glycoproteins and their assembly with calnexin and calreticulin chaperones in CD4+CD8+ thymocytes and splenic T cells. These studies show that TCRalpha glycoproteins synthesized in CD4+CD8+ thymocytes were processed in a similar manner as those made in splenic T cells and that TCRalpha proteins stably associated with calnexin in both cell types. Interestingly, however, TCRalpha association with the calnexin-related molecule calreticulin was decreased in CD4+CD8+ thymocytes compared with splenic T cells. Finally, TCRalpha degradation in CD4+CD8+ thymocytes was impaired by inhibitors of proteasome activity, which was correlated with stabilization of calnexin.TCRalpha complexes. These data demonstrate that calnexin association is not sufficient to protect TCRalpha proteins from rapid degradation in CD4+CD8+ thymocytes, suggesting that additional components of the quality control system of the endoplasmic reticulum operate to ensure the proper folding of nascent TCRalpha glycoproteins.
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PMID:Calnexin association is not sufficient to protect T cell receptor alpha proteins from rapid degradation in CD4+CD8+ thymocytes. 972 72

Optimal T cell activation and interleukin-2 production requires a second signal in addition to antigen-mediated T cell receptor (TCR) signaling. The CD28 molecule has been demonstrated to act as an effective costimulatory molecule upon binding by B7.1 or B7.2 present on antigen-presenting cells. The CD28 signal acts in concert with the TCR signal to significantly augment activation of the NF-kappaB family of transcription factors. The interleukin-2 gene is regulated by NF-kappaB among other transcription factors, in part, via a CD28 responsive element (CD28RE) present in the IL-2 promoter. Enhanced activation of NF-kappaB by CD28 is mediated by rapid phosphorylation and proteasome-mediated degradation of the NF-kappaB inhibitory proteins IkappaB alpha and IkappaB beta, which allows for accelerated nuclear expression of the liberated NF-kappaB. Herein, we provide evidence that the catalytic activities of two recently identified IkappaB kinases, IKKalpha and IKKbeta, are significantly elevated when T cells are stimulated through CD28 in addition to mitogen treatment. Catalytically inactive forms of IKKs are able to block the in vivo phosphorylation of IkappaB alpha induced by mitogen and CD28. Furthermore, CD28-mediated reporter gene transactivation of the CD28RE/AP-1 composite element is consistently attenuated by the IKK mutants. These findings suggest that cellular signaling pathways initiated at the TCR and CD28 converge at or upstream of IKK, resulting in more robust kinase activity and enhanced and prolonged NF-kappaB activation.
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PMID:IkappaB kinases serve as a target of CD28 signaling. 973 79

Unassembled alpha subunits of the T cell receptor (TCRalpha) are degraded by proteasomes following their dislocation from the endoplasmic reticulum membrane. We previously demonstrated that a variant of TCRalpha lacking lysines (KalphaR) is degraded by this pathway with kinetics indistinguishable from those of the wild type protein (Yu, H., Kaung, G., Kobayashi, S., and Kopito, R. R. (1997) J. Biol. Chem. 272, 20800-20804), demonstrating that ubiquitination on lysines is not required for TCRalpha degradation by the proteasome. Here, we show that dislocation and degradation of TCRalpha and KalphaR are suppressed by dominant negative ubiquitin coexpression and by mutations in the ubiquitin activating enzyme, indicating that their degradation requires a functional ubiquitin pathway. A cytoplasmic TCRalpha variant that mimics a dislocated degradation intermediate was degraded 5 times more rapidly than full-length TCRalpha, suggesting that dislocation from the endoplasmic reticulum membrane is the rate-limiting step in TCRalpha degradation. We conclude that ubiquitination is required both for dislocation and for targeting TCRalpha chains to the proteasome.
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PMID:The role of multiubiquitination in dislocation and degradation of the alpha subunit of the T cell antigen receptor. 1060 Dec 36

Tolerance in vivo and its in vitro counterpart, anergy, are defined as the state in which helper T lymphocytes are alive but incapable of producing IL-2 and expanding in response to optimal antigenic stimulation. Anergy is induced when the T cell receptor (TCR) is engaged by antigen in the absence of costimulation or IL-2. This leads to unique intracellular signaling events that stand in contrast to those triggered by coligation of the TCR and costimulatory receptors. Specifically, anergy is characterized by lack of activation of lck, ZAP 70, Ras, ERK, JNK, AP-1, and NF-AT. In contrast, anergizing stimuli appear to activate the protein tyrosine kinase fyn, increase intracellular calcium levels, and activate Rap1. Moreover, anergizing TCR signals result in increased intracellular concentrations of the second messenger cAMP. This second messenger upregulates the cyclin-dependent kinase (cdk) inhibitor p27kip1, sequestering cyclin D2-cdk4, and cyclin E/cdk2 complexes and preventing progression of T cells through the G1 restriction point of the cell cycle. In contrast, costimulation through CD28 prevents p27kip1 accumulation by decreasing the levels of intracellular cAMP and promotes p27kip1 down-regulation due to direct degradation of the protein via the ubiquitin-proteasome pathway. Subsequent autocrine action of IL-2 leads to further degradation of p27kip1 and entry into S phase. Understanding the biochemical and molecular basis of T cell anergy will allow the development of new assays to evaluate the immune status of patients in a variety of clinical settings in which tolerance has an important role, including cancer, autoimmune diseases, and organ transplantation. Precise understanding of these biochemical and molecular events is necessary in order to develop novel treatment strategies against cancer. One of the mechanisms by which tumors down-regulate the immune system is through the anergizing inactivation of helper T lymphocytes, resulting in the absence of T cell help to tumor-specific CTLs. Although T-cells specific for tumor associated antigens are detected in cancer patients they often are unresponsive. Reversal of the defects that block the cell cycle progression is mandatory for clonal expansion of tumor specific T cells during the administration of tumor vaccines. Reversal of the anergic state of tumor specific T cells is also critical for the sufficient expansion of such T cells ex vivo for adoptive immunotherapy. On the other hand, understanding the molecular mechanisms of anergy will greatly improve our ability to design novel clinical therapeutic approaches to induce antigen-specific tolerance and prevent graft rejection and graft-versus-host disease. Such treatment approaches will allow transplantation of bone marrow and solid organs between individuals with increasing HLA disparity and therefore expand the donor pool, enable reduction in the need for nonspecific immunosuppression, minimize the toxicity of chemotherapy, and reduce the risk of opportunistic infections.
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PMID:Helper T cell anergy: from biochemistry to cancer pathophysiology and therapeutics. 1143 20

Activation-induced cell death (AICD) plays a critical role in the maintenance of homeostasis and peripheral tolerance in the immune system, and is mediated by Fas ligand (FasL) expression and the interaction between Fas and FasL. In the present study, we examined the role of the ubiquitin-proteasome system in AICD using T cell hybridoma N3-6-71 cells. The peptidyl aldehyde proteasome inhibitor carbobenzoxyl-Ile-Glu(O-t-butyl)-Ala-leucinal (PSI) blocked T cell receptor (TCR) stimulation-induced apoptosis in the T cell hybridoma. Fas and FasL gene expression and mouse FasL promoter activity following TCR stimulation were suppressed by PSI pretreatment. Deletion or point mutation of the kappaB site in the FasL promoter region did not suppress inducible FasL promoter activity effectively. PSI blocked extracellular signal-regulated kinase (ERK) activity induced by TCR stimulation, but had no effect on c-jun N-terminal kinase activation. ERK activation was essential for FasL expression and AICD. The initial tyrosine phosphorylation steps following TCR stimulation, i.e., phosphorylation of CD3zeta and Vav, were not altered by PSI. These data suggest that the ubiquitin-proteasome system has some regulatory function at an intermediate step between the initial tyrosine phosphorylation steps and ERK activation in AICD.
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PMID:Proteasome inhibitors block Ras/ERK signaling pathway resulting in the downregulation of Fas ligand expression during activation-induced cell death in T cells. 1187 60

The pre-T cell receptor (TCR) signals constitutively in the absence of putative ligands on thymic stroma and signal transduction correlates with translocation of the pre-TCR into glycolipid-enriched microdomains (rafts) in the plasma membrane. Here, we show that the pre-TCR is constitutively routed to lysosomes after reaching the cell surface. The cell-autonomous down-regulation of the pre-TCR requires activation of the src-like kinase p56(lck), actin polymerization, and dynamin. Constitutive signaling and degradation represents a feature of the pre-TCR because the gammadeltaTCR expressed in the same cell line does not exhibit these features. This is also evident by the observation that the protein adaptor/ubiquitin ligase c-Cbl is phosphorylated and selectively translocated into rafts in pre-TCR- but not gammadeltaTCR-expressing cells. A role of c-Cbl-mediated ubiquitination in pre-TCR degradation is supported by the reduction of degradation through pharmacological inhibition of the proteasome and through a dominant-negative c-Cbl ubiquitin ligase as well as by increased pre-TCR surface expression on immature thymocytes in c-Cbl-deficient mice. The pre-TCR internalization contributes significantly to the low surface level of the receptor on developing T cells, and may in fact be a requirement for optimal pre-TCR function.
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PMID:Constitutive endocytosis and degradation of the pre-T cell receptor. 1207 Feb 86

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