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)

p62 is a novel cellular protein which was initially identified as a phosphotyrosine-independent ligand of the SH2 domain of p56(lck). In the yeast two-hybrid system, p62 specifically interacted with ubiquitin in vivo. Furthermore, p62 bound to ubiquitin-conjugated Sepharose beads in vitro and was efficiently competed by soluble ubiquitin. The interaction was independent of ATP hydrolysis, and its dissociation did not require a reducing agent. Thus, p62 binds to ubiquitin noncovalently. Further analysis showed that the C-terminal 80 amino acids of p62 were indispensable for its interaction with ubiquitin. However, p62 has homology neither with ubiquitin C-terminal hydrolases nor with the S5a subunit of the 26 S proteasome complex, the only proteins known to bind to ubiquitin noncovalently. These results suggest that p62 belongs to a new class of ubiquitin-binding proteins and that p62 affects signal transduction at least partly through ubiquitination-mediated protein degradation.
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PMID:p62, a phosphotyrosine-independent ligand of the SH2 domain of p56lck, belongs to a new class of ubiquitin-binding proteins. 870 53

The transcription factor NF-kappaB is normally sequestered in the cytoplasm by members of the IkappaB family, including IkappaB alpha, IkappaB beta, and the recently cloned IkappaB epsilon. Upon cellular activation, these inhibitors are rapidly phosphorylated on two amino-terminal serines, ubiquitinated, and degraded by the 26S proteasome, releasing a functional NF-kappaB. To determine the importance of IkappaB beta in NF-kappaB regulation in T cells, we generated transgenic mice expressing a constitutively active IkappaB beta mutant (mIkappaB beta) under the control of the lck promoter. The transgene contains the two critical N-terminal serine residues mutated to alanines and therefore no longer susceptible to degradation upon cell activation. mIkappaB beta is unable to totally displace IkappaB alpha from RelA-containing complexes, thus allowing a transient activation of NF-kappaB upon T-cell stimulation. However, mIkappaB beta completely blocks NF-kappaB activity after IkappaB alpha degradation. In addition, as a consequence of this inhibition, ikba expression is down regulated, along with that of other NF-kappaB-regulated genes. These transgenic mice have a significant reduction in the peripheral T-cell population, especially CD8+ cells. The remaining T cells have impaired proliferation in response to phorbol 12-myristate 13-acetate plus phytohemagglutinin or calcium ionophore but not to anti-CD3/anti-CD28 costimulation. As a result of these alterations, transgenic animals present defects in immune responses such as delayed-type hypersensitivity and the generation of specific antibodies against T-cell-dependent antigens. These results show that in nonstimulated T cells, IkappaB beta cannot efficiently displace IkappaB alpha bound to RelA-containing complexes and that persistent NF-kappaB activity is required for proper T-cell responses in vivo.
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PMID:Expression of constitutively active IkappaB beta in T cells of transgenic mice: persistent NF-kappaB activity is required for T-cell immune responses. 941 95

The benzoquinoid ansamycins geldanamycin (GA), herbimycin, and their derivatives are emerging as novel therapeutic agents that act by inhibiting the 90-kDa heat-shock protein hsp90. We report that GA inhibits the proliferation of mitogen-activated T cells. GA is actively toxic to both resting and activated T cells; activated T cells appear to be especially vulnerable. The mechanism by which GA acts is reflected by its effects on an essential hsp90-dependent protein, the T cell-specific nonreceptor tyrosine kinase lck. GA treatment depletes lck levels in cultured T cells by a kinetically slow dose-dependent process. Pulse-chase analyses indicate that GA induces the very rapid degradation of newly synthesized lck molecules. GA also induces a slower degradation of mature lck populations. These results correlate with global losses in protein tyrosine kinase activity and an inability to respond to TCR stimuli, but the activity of mature lck is not immediately compromised. Although the specific proteasome inhibitor lactacystin provides marginal protection against GA-induced lck depletion, proteasome inhibition also induces changes in lck detergent solubility independent of GA application. There is no other evidence for the involvement of the proteosome. Lysosome inhibition provides quantitatively superior protection against degradation. These results indicate that pharmacologic inhibition of hsp90 chaperone function may represent a novel immunosuppressant strategy, and elaborate on the appropriate context in which to interpret losses of lck as a reporter for the pharmacology of GA in whole organisms.
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PMID:Effects of geldanamycin, a heat-shock protein 90-binding agent, on T cell function and T cell nonreceptor protein tyrosine kinases. 1070 77

Phosphorylation of the N-terminal domain of I kappa B inhibitory subunits induces activation of the transcription factor NF-kappa B. Although serine phosphorylation has been shown to induce ubiquitination and subsequent proteasome-mediated degradation of I kappa B-alpha, little is known about the mechanisms that lead to release of active NF-kappa B in T cells as a consequence of tyrosine phosphorylation of I kappa B-alpha [Imbert, V., Rupec, R.A., Livolsi, A., Pahl, H.L., Traenckner, B.M., Mueller-Dieckmann, C., Farahifar, D., Rossi, B., Auberger, P., Baeuerle, P. & Peyron, J.F. (1996) Cell 86, 787--798]. The involvement of the tyrosine kinases p56(lck) and ZAP-70 in this reaction is demonstrated here using specific pharmacological inhibitors and Jurkat mutants unable to express these kinases. Although the inhibitors prevented both pervanadate-induced phosphorylation of I kappa B-alpha on Tyr42 and NF-kappa B activation, we observed that, in p56(lck)-deficient Jurkat mutants, NF-kappa B could still associate with I kappa B-alpha despite phosphorylation on Tyr42. Furthermore, the SH2 domain of p56(lck) appeared to be required for pervanadate-induced NF-kappa B activation but not for Tyr42 phosphorylation. These results show that p56(lck) and ZAP-70 are key components of the signaling pathway that leads to phosphotyrosine-dependent NF-kappa B activation in T cells and confirm that tyrosine kinases must control at least two different steps to induce activation of NF-kappa B. Finally, we show that H(2)O(2), which stimulates p56(lck) and ZAP-70 in T cells, is an activator of NF-kappa B through tyrosine phosphorylation of I kappa B-alpha.
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PMID:Tyrosine phosphorylation-dependent activation of NF-kappa B. Requirement for p56 LCK and ZAP-70 protein tyrosine kinases. 1123 5

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

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

This study analysed the T-cell receptor (TCR)-CD3 zeta complex and the signal transduction apparatus of T-acute lymphoblastic leukaemia (T-ALL) blasts, and investigated the function of the ubiquitin-proteasome system. In all nine T-ALL samples studied, the leukaemic cells showed a marked reduction in the expression of the zeta chain, while a variety of tyrosine kinases (p56lck, ZAP70 and SYK) were normally present. There was no expression of the FcepsilonRIgamma chain. To confirm that this aberration was specific to immature T-ALL blasts, we investigated two patients with lymphoproliferative disorders of granular lymphocytes (LDGL), characterized by the expansion of mature T lymphocytes and found normal zeta chain expression. The reduction of the zeta chain protein was not reversible after 72 h stimulation with the anti-CD3 monoclonal antibody and interleukin 2, either alone or in combination. Northern blot analysis indicated that the reduced protein expression did not correspond to a defect at the mRNA level, nor were mutations in the coding region of the zeta chain found. We, therefore, hypothesized that the observed reduction of protein expression in T-ALL blasts could be secondary to an increased degradation at the proteasome level. Following selective inhibition of the proteasome, a marked increase of the zeta chain expression was observed. Moreover, an increase in the surface expression of CD3 was also documented. Taken together, these results indicate that the expression of the zeta subunit of the TCR-CD3 complex is consistently reduced in T-ALL blasts and that degradation of the protein is mediated by the proteasome system.
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PMID:Defective expression of the T-cell receptor-CD3 zeta chain in T-cell acute lymphoblastic leukaemia. 1254 76

Cisplatin is an antineoplastic drug that binds to DNA, thereby inhibiting cell division and tumor growth. Cisplatin may also disrupt the function of some proteins, including heat shock protein 90 (Hsp90). We report that cisplatin dose-dependently inhibited transcriptional activity of the androgen receptor and the glucocorticoid receptor (GR) in transient reporter assays. A truncated, hormone-independent GR was only partially inhibited at significantly higher doses of cisplatin. Cisplatin treatment of neuroblastoma cells led to an immediate inhibition of hormone binding by GR, followed by proteasome-dependent degradation of the receptor. Other Hsp90-regulated proteins, i.e. the phosphokinases raf-1, lck, and c-src, were not affected, indicating a specific functional interference of cisplatin with the steroid receptors GR and androgen receptor. Cisplatin did not elicit a stress response, in contrast to geldanamycin. Immunoprecipitation revealed that cisplatin disrupts binding of GR to Hsp90. Moreover, cisplatin-treated Hsp90 was unable to associate with untreated ligand binding domain of GR. Reticulocyte lysate was able to restore hormone binding of GR in vitro, but not when the lysate was pretreated with geldanamycin. Our data reveal that cisplatin influences steroid receptors also independently of its DNA-mediated effects and, thus, suggest a novel modes of action for this cytostatic drug.
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PMID:The heat shock protein 90-targeting drug cisplatin selectively inhibits steroid receptor activation. 1286 91

NFkappaB induction and gene regulation are compromised in T lymphocytes during aging. This has been attributed to altered proteasomal function resulting in decreased ubiquitin-mediated degradation of IkappaBalpha. However, little is known about the impact of aging on the mechanisms that lead to the release of active NFkappaB employing pro-oxidant pathways. Oxidant-mediated activation of NFkappaB has been previously shown to involve proteasome independent mechanisms and hence may be an important alternate conduit to the induction of this central transcription factor in aging. Employing H(2)O(2) and pervanadate we not only demonstrate lowered tyrosine phosphorylation of IkappaBalpha, but also compromised induction of nuclear NFkappaB in T cells from the elderly. Lowered tyrosine phosphorylation of IkappaBalpha may be due to a decrease in activity of p56(lck) and ZAP-70, since treatment with piceatannol, an inhibitor of syk and src family kinases, mimics age associated decline in tyrosine phosphorylation of IkappaBalpha in T cells from young donors. Thus, alternate pathways of NFkappaB induction are also impaired in T cells from the elderly and may underlie immune-deficit accompanying aging.
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PMID:Tyrosine phosphorylation-dependent activation of NFkappaB is compromised in T cells from the elderly. 1505 Feb 91

After specific activation, CD8+ cytotoxic T lymphocytes (CTLs) enter a refractory state termed activation-induced nonresponsiveness (AINR) that is characterized by the inability of T cells to respond to a secondary stimulus. Here, we show that T cell receptor triggering results in rapid degradation of the src-family protein kinase lck through a mechanism that is proteasome- and lysosome-independent, sensitive to cysteine protease inhibitors, and distinct from the pathways involved in degradation of ZAP-70 kinase or zeta-chain of the CD3 complex. Pharmacologic blockade of lck degradation, as well as transfection of refractory cells with an lck expression vector, increased responsiveness of CTLs to repeated antigenic challenge. The development or maintenance of AINR was not affected by exogenously added IL-2, whereas IL-15 or IFN-alpha restored both lck expression and responsiveness of preactivated CTLs. Our results suggest that lck degradation plays an important role in the development of AINR in human CTLs and that this condition can be reverted by pharmacologic agents or lymphokines that prevent lck degradation or induce its expression.
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PMID:Regulation of lck degradation and refractory state in CD8+ cytotoxic T lymphocytes. 1595 29

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