Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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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 developed an assay to continuously monitor the branched amino acid preferring peptidase (BrAAP) activity of the proteasome. This assay is based on the hydrolysis of the fluorogenic peptide, Abz-Gly-Pro-Ala-Leu-Ala-Nba (Abz is 2-aminobenzoyl and Nba is 4-nitrobenzylamide) which is cleaved exclusively at the Leu-Ala bond by the 20S proteasome with a kc/Km value of 13 000 M-1 s-1. Hydrolysis of this peptide is accompanied by an increase in fluorescence intensity (lambda ex = 340 nm, lambda em = 415 nm) due to release of the internally quenched 2-aminobenzoyl fluorescence that accompanies diffusion apart of the hydrolysis products, Abz-Gly-Pro-Ala-Leu and Ala-Nba. Using this assay, we examined inhibition of the BrAAP activity of the proteasome by a series of tripeptide aldehydes, Z-Leu-Leu-Xaa-H. When Xaa = Phe, (p-Cl)Phe, and Trp we observe biphasic or partial inhibition of the BrAAP activity. In contrast, when Xaa = Nva and Leu, simple inhibition kinetics are observed and allow us to calculate Ki values of 120 nM and 12 nM, respectively. The inhibitors that exhibit simple inhibition kinetics for BrAAP activity are also approximately equipotent for inhibition of the chymotrypsin-like (ChT-L) and peptidyl-glutamyl peptide hydrolyzing (PGPH) activities, dissociation constants varying by less than 25-fold, whereas the inhibitors that exhibit biphasic inhibition kinetics for BrAAP activity are >300-fold more potent for inhibiting ChT-L activity than for PGPH activity. Inactivation of the BrAAP activity of the proteasome by clasto-lactacystin beta-lactone is also biphasic. beta-Lactone inactivates approximately 60% of the BrAAP activity rapidly, with kinetics indistinguishable from its inactivation of the chymotrypsin-like activity. The remaining 40% of the BrAAP activity is inactivated by beta-lactone at a 50-fold slower rate, with kinetics indistinguishable from its inactivation of the PGPH activity. These results suggest a mechanism in which hydrolysis of Abz-Gly-Pro-Ala-Leu-Ala-Nba (i.e., BrAAP activity) occurs at two different active sites in the 20S proteasome, and that these two active sites are the same ones that catalyze the previously described ChT-L and PGPH activities.
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PMID:Kinetic studies of the branched chain amino acid preferring peptidase activity of the 20S proteasome: development of a continuous assay and inhibition by tripeptide aldehydes and clasto-lactacystin beta-lactone. 960 Oct 40

The proteasome is the central enzyme of protein degradation in the cytosol and the nucleus. It is involved in the removal of abnormal, misfolded or incorrectly assembled proteins, in the processing or degradation of transcriptional regulators in stress response, in degradation of cyclins in cell-cycle control, in the destruction of transcription factors or metabolic enzymes in cell differentiation and metabolic response, and in MHC class I mediated cellular immune response. By the analysis of the crystal and molecular structures of the 20 S proteasomes from the archaeon Thermoplasma acidophilum and from yeast it was shown that the beta-type subunits in which the proteolytic activities reside are members of the N-terminal nucleophile (Ntn) protein family. They are synthesized as proproteins and become active by autoprocessing at a Gly-1-Thr1 bond. The Thr1Ala mutant of subunit beta1/Pre3 of the 20 S proteasome from yeast is unable to autolyse. Its crystal and molecular structure at 2.2 A resolution described here shows that the pro-segment adopts a well-defined gamma-turn conformation at Gly-1 and provides a first view at an autolysis site in Ntn hydrolases. The Gly-1 carbonyl oxygen displays two hydrogen bonds. The modelled Thr1 side-chain is located above the gamma-turn bulge such that addition of its nucleophilic hydroxyl group to the electrophilic Gly-1 carbonyl carbon atom may proceed by very small motions. The pro-segment binding site and the catalytic site provide a rigid structural framework and appropriate hydrogen bond donors for this reaction. The same structure also supports addition of the Thr1 hydroxyl group to the carbonyl carbon atom of Leu-2 as a model for the first step in substrate hydrolysis by the proteasome.
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PMID:Conformational constraints for protein self-cleavage in the proteasome. 964 94

Peptide segments of multiple glycine and alanine residues prevent the proteolytic degradation of ubiquitinated proteins by the proteasome. The structure of a Gly/Ala-rich insert in IkappaB alpha was probed by nuclear magnetic resonance (NMR) spectroscopy, comparing IkappaB alpha samples with and without Gly/Ala-rich insert. Narrow 1H-NMR resonances at chemical shifts indicative of random coil conformations were observed in the difference spectrum. circular dichroism (CD) measurements further confirm that the mechanism of protection against proteolytic degradation is not based on structural transition or stabilization caused by the Gly/Ala-rich segment. In addition, most of the N- and C-terminal residues outside the ankyrin repeats in wild-type IkappaB alpha were found to be flexibly disordered.
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PMID:Random coil conformation of a Gly/Ala-rich insert in IkappaB alpha excludes structural stabilization as the mechanism for protection against proteasomal degradation. 987 4

The ubiquitin proteolytic system plays a major role in a variety of basic cellular processes. In the majority of these processes, the target proteins are completely degraded. In one exceptional case, generation of the p50 subunit of the transcriptional regulator NF-kappaB, the precursor protein p105 is processed in a limited manner: the N-terminal domain yields the p50 subunit, whereas the C-terminal domain is degraded. The identity of the mechanisms involved in this unique process have remained elusive. It has been shown that a Gly-rich region (GRR) at the C-terminal domain of p50 is an important processing signal. Here we show that the GRR does not interfere with conjugation of ubiquitin to p105 but probably does interfere with the processing of the ubiquitin-tagged precursor by the 26S proteasome. Structural analysis reveals that a short sequence containing a few Gly residues and a single essential Ala is sufficient to generate p50. Mechanistically, the presence of the GRR appears to stop further degradation of p50 and to stabilize the molecule. It appears that the localization of the GRR within p105 plays an important role in directing processing: transfer of the GRR within p105 or insertion of the GRR into homologous or heterologous proteins is not sufficient to promote processing in most cases, which is probably due to the requirement for an additional specific ubiquitination and/or recognition domain(s). Indeed, we have shown that amino acid residues 441 to 454 are important for processing. In particular, both Lys 441 and Lys 442 appear to serve as major ubiquitination targets, while residues 446 to 454 are independently important for processing and may serve as the ubiquitin ligase recognition motif.
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PMID:Structural motifs involved in ubiquitin-mediated processing of the NF-kappaB precursor p105: roles of the glycine-rich region and a downstream ubiquitination domain. 1020 90

MyoD is a tissue-specific transcriptional activator involvd in skeletal muscle differentiation. It is induced during transition from proliferating, non-differentiated myoblasts to the resting and well differentiated myotubes. Like many other transcriptional regulators, it is short-lived, however, the targeting proteolytic pathway and the underlying regulatory mechanisms involved have remained obscure. Here we show that MyoD is degraded by the ubiquitin system both in vivo and in vitro. In cells, degradation is inhibited by lactacystin, a specific inhibitor of the 20S proteasome. Inhibition is accompanied by accumulation of MyoD-ubiquitin conjugates. In a cell free system, the proteolytic process requires both ATP and ubiquitin and is preceded by formation of MyoD-ubiquitin adducts. Interestingly, the process is inhibited by the specific DNA sequence to which MyoD binds. Analysis of the ubiquitination site has revealed that the N-terminal residue of MyoD is sufficient and essential to promote conjugation and subsequent degradation of the protein: conjugation to internal Lys residues is not necessary. Substitution of all Lys residues did not affect significantly its degradation either in intact cells or in a reconstituted cell free system. Degradation was inhibited by specific proteasome inhibitors and was accompanied by accumulation of ubiquitinated species of the protein. We concluded that the first ubiquitin moiety is attached via its C-terminal Gly to the N-terminal residue of MyoD, and the polyubiquitin chain is then synthesized on Lys48 of this moiety.
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PMID:Degradation of MyoD by the ubiquitin pathway: regulation by specific DNA-binding and identification of a novel site for ubiquitination. 1036 48

The proteasome is a large protease complex that is thought to be responsible for proteolytic removal of damaged proteins. We have previously shown that the level of proteolytic activity due to the proteasome is lower in lens epithelium from human cataractous lenses compared to the activity in epithelium from clear donor lenses. This study aimed to characterize the three main peptidase activities of the proteasome in human lens epithelium with respect to kinetic properties and sensitivity to heat and oxidation. Human lens epithelia were obtained from cataract surgery and analysis performed on pools of epithelial cell cytoplasm. Using the fluorogenic peptide substrates Suc-Leu-Leu-Val-Tyr-AMC (LLVY), Boc-Val-Gly-Arg-AMC (VGR) and Z-Leu-Leu-Glu-betaNA (LLE), Km-values of 56, 678 and 108 micrometers were obtained. All peptidase activities were inhibited by lactacystin, a specific proteasome inhibitor, but at very different rates; with LLVY-hydrolysing activity being the most sensitive (Ki50%=0.15 micrometers). Thermostability was investigated by performing the proteolytic assay at 20 degrees, 37 degrees and 53 degrees C. The trypsin-like activity, as measured by VGR, was completely stable at 53 degrees C for at least 24 hr whereas hydrolysis of LLVY and LLE declined after a few hours at 37 degrees C. Oxidative inhibition was induced by incubation of the samples in 0.5 m m H2O2for 1 or 24 hr. One hour exposure to H2O2caused moderate inhibition of all peptidase activities. The activity could be partially restored by adding 1 m m dithiotreitol, indicating the dependency on intact SH-groups. After 24 hr, peptidase activities were decreased to 25% (LLVY), 73% (VGR) and 44% (LLE) of corresponding control. This inhibition was irreversible for VGR and LLE, but could be partly prevented by the presence of heat shock protein 90 (LLVY and VGR) or alpha-crystallin (LLVY). These data show that the peptidase activities of the human lens proteasome can be modulated by metabolites, such as reactive oxygen species, and by endogenous proteins such as alpha-crystallin and heat shock protein 90.
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PMID:Differential inhibition of three peptidase activities of the proteasome in human lens epithelium by heat and oxidation. 1037 57

We have studied the capacity of the prepro amino extension of vacuolar protease leucine aminopeptidase I (API) to target the fluorescent reporter protein GFP to the vacuole of yeast. The preproGFP chimera constructed by extending the amino end of GFP with the prepro-part of API is rapidly degraded in both wild-type WCG cells and WCG 11/21a cells deficient in the proteasome. In contrast, the chimera expressed in WCG-PP cells deficient in both proteasome activity and vacuolar proteinase A accumulates in the vacuole, where it remains stable. Replacement of Gly by Ile-7, a substitution that prevents folding of the pre-part into an amphipathic helix and inhibits the targeting of the API precursor to the vacuole, inhibits the targeting of preproGFP to the vacuole. The separated pre- and pro-parts of the API precursor do not target GFP to the vacuole. Targeting of preproGFP to the vacuole is independent of its levels of expression, as the fluorescent protein localizes to the vacuole in cells expressing the protein under the control of both the GAL 1/10 or the API promoter. The preproGFP expressed under both promoters is recovered as monomers from cytosolic cell extracts. PreproGFP expressed under the API promoter is packed into cytoplasmic bodies that penetrate into the vacuolar lumen to release the protein. Altogether our results show that the prepro-part of the API precursor is necessary and sufficient to target the green fluorescent reporter protein to the vacuole.
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PMID:The prepropeptide of vacuolar aminopeptidase I is necessary and sufficient to target the fluorescent reporter protein GFP to the vacuole of yeast by the Ccvt pathway. 1041 23

Polyubiquitin (Ub) chains linked through Lys-48-Gly-76 isopeptide bonds represent the principal signal by which substrates of the Ub-dependent protein degradation pathway are targeted to the 26 S proteasome, but the mechanism(s) whereby these chains are assembled on substrate proteins is poorly understood. Nor have assembly mechanisms or definitive functions been assigned to polyubiquitin chains linked through several other lysine residues of ubiquitin. We show that rabbit reticulocyte lysate harbors enzymatic components that catalyze the assembly of unanchored Lys-29-linked polyubiquitin chains. This reaction can be reconstituted using the ubiquitin-conjugating enzyme (E2) known as UbcH5A, a 120-kDa protein(s) that behaves as a ubiquitin-protein ligase (E3), and ubiquitin-activating enzyme (E1). The same partially purified E3 preparation also catalyzes the assembly of unanchored chains linked through Lys-48. Kinetic studies revealed a K(m) of approximately 9 microM for the acceptor ubiquitin in the synthesis of diubiquitin; this value is similar to the concentration of free ubiquitin in most cells. Similar kinetic behavior was observed for conjugation to Lys-48 versus Lys-29 and for conjugation to tetraubiquitin versus monoubiquitin. The properties of these enzymes suggest that there may be distinct pathways for ubiquitin-ubiquitin ligation versus substrate-ubiquitin ligation in vivo.
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PMID:E2/E3-mediated assembly of lysine 29-linked polyubiquitin chains. 1048 Sep 50

We present a biochemical and crystallographic characterization of active site mutants of the yeast 20S proteasome with the aim to characterize substrate cleavage specificity, subunit intermediate processing, and maturation. beta1(Pre3), beta2(Pup1), and beta5(Pre2) are responsible for the postacidic, tryptic, and chymotryptic activity, respectively. The maturation of active subunits is independent of the presence of other active subunits and occurs by intrasubunit autolysis. The propeptides of beta6(Pre7) and beta7(Pre4) are intermediately processed to their final forms by beta2(Pup1) in the wild-type enzyme and by beta5(Pre2) and beta1(Pre3) in the beta2(Pup1) inactive mutants. A role of the propeptide of beta1(Pre3) is to prevent acetylation and thereby inactivation. A gallery of proteasome mutants that contain active site residues in the context of the inactive subunits beta3(Pup3), beta6(Pre7), and beta7(Pre4) show that the presence of Gly-1, Thr1, Asp17, Lys33, Ser129, Asp166, and Ser169 is not sufficient to generate activity.
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PMID:The catalytic sites of 20S proteasomes and their role in subunit maturation: a mutational and crystallographic study. 1050 Jan 11

P-glycoprotein (P-gp), the product of human MDR1 gene, which functions as an ATP-dependent drug efflux pump, is N-linked glycosylated at asparagine residues 91, 94, and 99 located within the first extracellular loop. We report here the biochemical characterization of glycosylation-deficient (Gly(-)) P-gp using a vaccinia virus based transient expression system. The staining of HeLa cells expressing Gly(-) P-gp (91, 94, and 99N-->Q), with P-gp specific monoclonal antibodies, MRK-16, UIC2 and 4E3 revealed a 40 to 50% lower cell-surface expression of mutant P-gp compared to the wild-type protein. The transport function of Gly(-) P-gp, assessed using a variety of fluorescent compounds indicated that the substrate specificity of the pump was not affected by the lack of glycosylation. Additional mutants, Gly(-) D (91, 94, 99N-->D) and Gly(-) Delta (91, 94, 99 N deleted) were generated to verify that the reduced cell surface expression, as well as total expression, were not a result of the glutamine substitutions. Gly(-) D and Gly(-) Delta Pgps were also expressed to the same level as the Gly(-) mutant protein. (35)S-Methionine/cysteine pulse-chase studies revealed a reduced incorporation of (35)S-methionine/cysteine in full length Gly(-) P-gp compared to wild-type protein, but the half-life ( approximately 3 hr) of mutant P-gp was essentially unaltered. Since treatment with proteasome inhibitors (MG-132, lactacystin) increased only the intracellular level of nascent, mutant P-gp, the decreased incorporation of (35)S-methionine/cysteine in Gly(-) P-gp appears to be due to degradation of improperly folded mutant protein by the proteasome and endoplasmic reticulum-associated proteases. These results demonstrate that the unglycosylated protein, although expressed at lower levels at the cell surface, is functional and suitable for structural studies.
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PMID:Functional characterization of glycosylation-deficient human P-glycoprotein using a vaccinia virus expression system. 1066 16


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