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)

We have determined peptide sequences of three Trypanosoma brucei proteasome subunit proteins by mass spectrometry of tryptic digests of the proteins purified by two-dimensional (2-D) polyacrylamide gel electrophoresis. Three genes identified by the sequence of their cDNA encode the peptides identified in these three proteins. The three proteins predicted from the gene sequences have significant similarity to other known proteasome subunits and represent an alpha6 type subunit (TbPSA6), and two beta-type subunits belonging to the beta1-type (TbPSB1) and beta2 type (TbPSB2). The sequences of both beta-subunits predict formation of catalytically active subunits through proteolytic processing. The prediction is supported by the presence in each of the two beta-subunits of a tryptic peptide that has the correctly processed N-terminus that creates the threonine nucleophile of the mature protein. This peptide cannot be generated by trypsin because of the required cleavage of a glycine-threonine bond. It is thus likely that there are at least two catalytically active beta-subunits, TbPSB1 and TbPSB2, present in the mature 20S proteasome from T. brucei.
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PMID:Identification and isolation of three proteasome subunits and their encoding genes from Trypanosoma brucei. 1049 78

Cyclin E is an unstable protein that is degraded in a ubiquitin- and proteasome- dependent pathway. Two factors stimulate cyclin E ubiquitination in vivo: when it is free of its CDK partner, and when it is phosphorylated on threonine 380. We pursued the first of these pathways by using a two-hybrid screen to identify proteins that could bind only to free cyclin E. This resulted in the isolation of human Cul-3, a member of the cullin family of E3 ubiquitin-protein ligases. We found that Cul-3 was bound to cyclin E but not to cyclin E-Cdk2 complexes in mammalian cells, and that overexpression of Cul-3 increased ubiquitination of cyclin E but not other cyclins. Conversely, deletion of the Cul-3 gene in mice caused increased accumulation of cyclin E protein, and had cell-type-specific effects on S-phase regulation. In the extraembryonic ectoderm, in which cells undergo a standard mitotic cycle, there was a greatly increased number of cells in S phase. In the trophectoderm, in which cells go through endocycles, there was a block to entry into S phase. The SCF pathway, which targets cyclins for ubiquitination on the basis of their phosphorylation state, and the Cul-3 pathway, which selects cyclin E for ubiquitination on the basis of its assembly into CDK complexes, may be complementary ways to control cyclin abundance.
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PMID:Cullin-3 targets cyclin E for ubiquitination and controls S phase in mammalian cells. 1050 95

Polypeptide sequences enriched in proline (P), glutamate (E), serine (S), and threonine (T), dubbed PEST domains, are proposed to expedite the degradation of proteins. The proteolysis of one PEST-containing protein, IkappaBalpha, is prerequisite to the activation of the transcription factor NF-kappaB. Two mechanisms of IkappaBalpha degradation in vivo have been described, one well characterized through the ubiquitin-proteasome pathway, and another less characterized through calpain. In this report, a mutational analysis was done to identify any regions of IkappaBalpha that facilitate its recognition and proteolysis by calpain in vitro. These studies revealed that the PEST sequence of IkappaBalpha is critical for its calpain-dependent degradation. Furthermore, the IkappaBalpha-PEST domain binds to the calmodulin-like domain of the large subunit of mu-calpain (muCaMLD). Transfer of the IkappaBalpha-PEST domain to a protein incapable of either binding to or being degraded by mu-calpain allowed for the interaction of the chimeric protein with muCaMLD and resulted in its susceptibility to calpain proteolysis. Moreover, the muCaMLD of calpain acts as a competitive inhibitor of calpain-dependent IkappaBalpha degradation. Our data demonstrate that the IkappaBalpha-PEST sequence acts as a modular domain to promote the physical association with and subsequent degradation by mu-calpain and suggest a functional role for PEST sequences in other proteins as potential calpain-targeting units.
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PMID:The PEST domain of IkappaBalpha is necessary and sufficient for in vitro degradation by mu-calpain. 1052 80

Human membrane cofactor protein (MCP, CD46) is a 45-70 kDa protein with genetic and tissue-specific heterogeneity, and is expressed on all nucleated cells. MCP consists from N-terminus of 4 short consensus repeats (SCRs), 1-3 serine/threonine-rich (ST) domains, a transmembrane domain (TM) and a cytoplasmic tail (CYT). More than 8 isoforms are generated secondary to alternative splicing due to combinations of various exons encoding the ST, TM and CYT domains. It serves as a cofactor of serine protease factor I for inactivation of complement C3b and C4b. Its primary role is to protect host cells from homologous complement attack by inactivating C3b/C4b deposited on the membrane. It also acts as receptors for measles virus (MV), some kinds of bacteria and for a putative ligand on oocytes. MV infection causes temporal host immune suppression, which may appear secondary to signaling events through MCP on macrophages and dendritic cells. These functional properties of human MCP may facilitate xenotransplantation and may be useful in the generation of animal models of measles by creating human MCP-expressing animals.
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PMID:Human membrane cofactor protein (MCP, CD46): multiple isoforms and functions. 1060 18

A cDNA encoding a new secretory form of mouse membrane cofactor protein (MCP, CD46) was identified additionally to the membrane form cDNA. The secretory MCP, predicted from the cDNA sequence, consisted of the conserved four short consensus repeats (SCRs) plus a four amino acid-stretch. Unlike human MCP which comprises many isoforms, mouse MCP cDNA predicted a single isoform of membrane MCP with cytoplasmic tail 1 (CYT1) and serine/ threonine-rich domain C (ST(C)). To clarify the genomic origin and monomorphic alteration of these cDNAs, we cloned and analyzed a mouse genomic DNA harboring the full coding sequence of MCP from a 129/SV mouse genomic library. The mouse Mcp was a single gene approximately 50 kilobases long. Eleven of the 14 coding exons of the human MCP gene and intron-exon boundary sequences were found to be conserved in the mouse gene. The STC homologue but not the STA or STB homologue in the mouse exons was functional: the latter being due to deletions and lack of consensus sequences for splicing. The sequence equivalent to cytoplasmic tail 2 (CYT2) has not been identified in the Mcp genome. Thus, the three exons (ST(A), ST(B), and probably CYT2) responsible for the polymorphism of human MCP by differential splicing were missing in the mouse Mcp gene. Unlike the case in humans, no Mcp-related genes or pseudogenes were observed in the mouse genome. The single mouse Mcp gene was mapped to the R-positive H5 band of mouse Chromosome 1 by FISH. Strikingly, one alternative exon with 73 base pairs (encoding the four new amino acids and a TGA stop codon) was discovered between the SCRIV and the STC exons; alternative splicing causes the generation of the secretory form of mouse MCP. These results on mouse MCP, together with the information concerning other mouse SCR proteins, infer that the regulator of complement activation (RCA) gene cluster is genetically diverged between humans and mice.
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PMID:Membrane and secretory forms of mouse membrane cofactor protein (CD46) generated from a single gene through alternative splicing. 1063 Feb 88

The 20S proteasome is a multicatalytic threonine protease and serves to process peptides that are subsequently presented as antigenic epitopes by MHC class I molecules. In the brain, microglial cells are the major antigen presenting cells and they respond sensitive to pathologic events. We used cultured mouse microglia and a microglial cell line, the BV-2 line, as a model to study the correlation between microglial activation parameters and structural plasticity of the 20S/26S proteasome. Lipopolysaccharide (LPS)- or interferon-gamma (IFN-gamma)-stimulated microglia or BV-2 cells exhibit properties of activated microglia such as high levels of TNFalpha and IL-6 release. In response to IFN-gamma or LPS, three constitutive beta subunits (beta1/Delta, beta2/MC14, beta5/MB1) were replaced by the immunoproteasome subunits ibeta1/LMP2, ibeta2/MECL-1, and ibeta5/LMP7, indicating that activated microglia adapts its proteasomal subunit composition to the requirements of an optimized MHC class I epitope processing. Induction of immunoproteasomes in BV-2 cells was solely provoked by IFN-gamma, but not by LPS. Moreover, LPS (but not IFN-gamma) triggered the expression of a novel protein of approximately 50 kD as part of the proteasome activator PA700, that is the substrate-recognizing and unfolding unit of the 26S proteasome. These results indicate that both the 20S core protease as well as the proteasome activator PA700 are targets of modulatory subunit replacements or transient association of regulatory components in the course of microglial activation.
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PMID:Biochemical analysis of proteasomes from mouse microglia: induction of immunoproteasomes by interferon-gamma and lipopolysaccharide. 1065 45

Based on the peculiar spatial array of the active sites in the internal chamber of the multicatalytic proteasome, as derived from the X-ray structure of yeast proteasome, homo- and heterobivalent inhibitors were designed and synthesized to exploit the principle of multivalency for enhancing inhibition potency. Peptidic bis-aldehyde compounds of the octapeptide size were synthesized to address adjacent active sites, whilst a PEG spacer with a statistical length distribution of 19-25 monomers was used to link two identical or different tripeptide aldehydes as binding heads. These bis-aldehyde compounds were synthesized applying both methods in solution and solid phase peptide synthesis. Bivalent binding was observed only for the PEG-spaced inhibitors suggesting that binding from the primed side prevents hemiacetal formation with the active site threonine residue.
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PMID:Synthesis of bivalent inhibitors of eucaryotic proteasomes. 1067 18

The basic helix-loop-helix/leucine zipper (bHLH/ZIP) microphthalmia-associated transcription factor (MITF) regulates transcription of genes encoding enzymes essential for melanin biosynthesis in melanocytes and retinal pigmented epithelial cells. To determine how MITF activity is regulated, we used the yeast two-hybrid system to identify proteins expressed by human melanoma cells that interact with MITF. The majority of clones that showed positive interaction with a 158-amino-acid region of MITF containing the bHLH/ZIP domain (aa 168-325) encoded the ubiquitin conjugating enzyme hUBC9. The association of MITF with hUBC9 was further confirmed by an in vitro GST pull-down assay. Although hUBC9 is known to interact preferentially with SENTRIN/SUMO1, in vitro transcription/translation analysis demonstrated greater association of MITF with ubiquitin than with SENTRIN. Importantly, cotransfection of MITF and hUBC9 expression vectors resulted in MITF protein degradation. MITF protein was stabilized by the proteasome inhibitor MG132, indicating the role of the ubiquitin-proteasome system in MITF degradation. Serine 73, which is located in a region rich in proline, glutamic acid, serine, and threonine (PEST), regulates MITF protein stability, since a serine to alanine mutation prevented hUBC9-mediated MITF (S73A) degradation. Furthermore, we identified lysine 201 as a potential ubiquitination site. A lysine to arginine mutation abolished MITF (K201R) degradation by hUBC9 in vivo. Our experiments indicate that by targeting MITF for proteasome degradation, hUBC9 is a critical regulator of melanocyte differentiation.
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PMID:Regulation of microphthalmia-associated transcription factor MITF protein levels by association with the ubiquitin-conjugating enzyme hUBC9. 1069 30

The double-stranded (ds) RNA activated protein kinase PKR is an interferon (IFN)-inducible serine/threonine protein that regulates protein synthesis through the phosphorylation of the alpha subunit of translation initiation factor 2 (eIF-2alpha). PKR activation in cells is induced by virus infection or treatment with dsRNA and is modulated by a number of viral and cellular factors. To better understand the mechanisms of PKR action we have analyzed and compared the mode of PKR activation in a number of cell lines of different histological origin. Here we show that PKR activation and phosphorylation of eIF-2alpha are both diminished in various virus-transformed and nontransformed human T cells. Priming of T cells with IFN does not restore PKR activation. In vitro kinase assays show that the diminished PKR activation in T cells correlates with the presence of a 60-kDa (p60) phosphoprotein coimmunoprecipitated with PKR. P60 is absent from PKR immunoprecipitates from non T cells. Incubation of active PKR with T cell extracts results in inhibition of PKR autophosphorylation, which is proportional to the amount of phosphorylated p60 in the kinase reactions. Treatment of T cells with proteasome inhibitors or incubation of PKR immunoprecipitates with phosphatase inhibitors does not restore PKR activation. However, phosphorylation of p60 is enhanced upon treatment with the phosphatase inhibitor microcystin. These data show that the impaired activation capacity of PKR in human T cells is exerted at the post-translational levels in a manner that is independent of cell transformation or virus infection.
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PMID:A diminished activation capacity of the interferon-inducible protein kinase PKR in human T lymphocytes. 1071 89

Activation of transcription factor NF-kappa B involves the signal-dependent degradation of basally phosphorylated inhibitors such as I kappa B alpha. In response to proinflammatory cytokines or mitogens, the transduction machinery has recently been characterized, but the activation mechanism upon oxidative stress remains unknown. In the present work, we provide several lines of evidence that NF-kappa B activation in a T lymphocytic cell line (EL4) by hydrogen peroxide (H2O2) did not involve phosphorylation of the serine residues 32 and 36 in the amino-terminal part of I kappa B alpha. Indeed, mutation of Ser32 and Ser36 blocked IL-1 beta- or PMA-induced NF-kappa B activation, but had no effect on its activation by H2O2. Although I kappa B alpha was phosphorylated upon exposure to H2O2, tyrosine residue 42 and the C-terminal PEST (proline-glutamic acid-serine-threonine) domain played an important role. Indeed, mutation of tyrosine 42 or serine/threonine residues of the PEST domain abolished NF-kappa B activation by H2O2, while it had no effect on activation by IL-1 beta or PMA-ionomycin. This H2O2-inducible phosphorylation was not dependent on I kappa B kinase activation, but could involve casein kinase II, because an inhibitor of this enzyme (5,6-dichloro-1-beta-D-ribofuranosyl-benzimidazole) blocks NF-kappa B activation. H2O2-induced I kappa B alpha phosphorylation was followed by its degradation by calpain proteases or through the proteasome. Taken together, our findings suggest that NF-kappa B activation by H2O2 involves a new mechanism that is totally distinct from those triggered by proinflammatory cytokines or mitogens.
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PMID:Crucial role of the amino-terminal tyrosine residue 42 and the carboxyl-terminal PEST domain of I kappa B alpha in NF-kappa B activation by an oxidative stress. 1075 28

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