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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)
Rat liver
proteasome
(
multicatalytic proteinase
complex) is a 20S-ring shaped particle having a molecular mass of 750 kDa, and is composed of at least 13 non-identical components ranging from 21 to 31 kDa in size. We found here that the NH2-terminal residues of all the known 13 components, except for C5, are not reactive to phenylisothiocyanate. Among them, components C2, C3 and C8 are blocked in their NH2-termini with N alpha-acetyl-
Met
, N alpha-acetyl-Ala, and N alpha-acetyl-Ser, respectively. The NH2-terminal portions of C2, C3, and C8 exhibit sequence similarity to one another, but that of the non-blocked component C5 differs from those of C2, C3, and C8.
...
PMID:The NH2-terminal residues of rat liver proteasome (multicatalytic proteinase complex) subunits, C2, C3 and C8, are N alpha-acetylated. 233 42
The ACE inhibitory activity of an
alkaline protease
hydrolyzate from sardine muscle did not change after being treated by gastrointestinal proteases (IC50 = 0.082 mg protein/ml). Eleven new ACE inhibitory peptides, constructed with 2 to 4 amino acid residues, were isolated from the hydrolyzate. The ACE inhibitory activity of each was mostly below 100 microM of IC50 value; the maximal inhibitory activity was observed for Lys-Trp (IC50 = 1.63 microM). The isolated peptides inhibited ACE competitively, except for
Met
-Tyr with non-competitive inhibition. As the result of sequence homology, Arg-Val-Tyr isolated from the hydrolyzate was found in the primary structure of angiotensins I, II, and III, and of des As[1]-angiotensin I.
...
PMID:Angiotensin I-converting enzyme inhibitory peptides in an alkaline protease hydrolyzate derived from sardine muscle. 776 18
The physiologically relevant stress of a flux of H2O2 increased hemoglobin (Hb) degradation in red blood cells (RBC) and increased the proteolytic susceptibility of Hb in vitro. After exposure to low H2O2 flux rates (6-32 microM/min) Hb exhibited increased exposure of hydrophobic (Trp,
Met
) and basic (Lys) amino acid R groups, increased hydrophobicity, and increased proteolytic susceptibility during subsequent incubation with RBC extracts, a partially purified preparation called Fraction II (which retains all of the proteolytic activities of RBC extracts), or the purified 670-kDa RBC
multicatalytic proteinase
complex
proteasome
. Hydrophobicity was measured by butyl-Sepharose hydrophobic interaction chromatography, by the free energy of transfer from water to ethanol, and by heat denaturation assays. Proteolytic susceptibility was measured by release of free alanine, by fluorescamine-reactive free amino groups, and by release of acid-soluble radioactivity from radiolabeled Hb. Low H2O2 flux rates also caused significant charge changes in Hb (isoelectric focusing gels) and extensive noncovalent aggregation (presumably due to increased hydrophobic interactions) but only limited covalent cross-linking (comparison of sodium dodecyl sulfate-polyacylamide gel electrophoresis (SDS-PAGE) and nondenaturing PAGE). Exposure to higher H2O2 flux rates (56-120 microM/min) caused progressive oxidative destruction of exposed hydrophobic amino acids, decreased hydrophobicity as judged by butyl-Sepharose chromatography and heat denaturation assays, increased hydrophilicity as judged by measurements of the free energy of transfer (delta G') from water to ethanol, and decreased proteolytic susceptibility during incubation with RBC extracts, Fraction II, or purified
proteasome
. High H2O2 flux rates also caused further charge changes and the extensive formation of covalently cross-linked Hb molecules. Linear regression analyses revealed correlations of 0.8-0.99 for the relationship between Hb hydrophobicity and proteolytic susceptibility for both Fraction II and
proteasome
. Inhibitor studies and SDS activation experiments indicate that
proteasome
is responsible for most of the Hb degradation during exposure of RBC to H2O2. Previous work yielded essentially identical conclusions for Hb exposed to hydroxyl radicals (R. E. Pacifici, Y. Kono, and K. J. A. Davies, J. Biol. Chem. 268, 15405-15411, 1993). Thus, nonspecific oxidation by .OH and site-specific (metal-catalyzed) oxidation by H2O2 both yield a more hydrophobic Hb molecule with increased proteolytic susceptibility. We propose that increased exposure of hydrophobic, and perhaps basic, amino acids is the general common cause for degradation of oxidized proteins.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:Exposure of hydrophobic moieties promotes the selective degradation of hydrogen peroxide-modified hemoglobin by the multicatalytic proteinase complex, proteasome. 820 95
The
Met
tyrosine kinase receptor is a widely expressed molecule which mediates pleiotropic cellular responses following activation by its ligand, hepatocyte growth factor/scatter factor (HGF/SF). In this communication we demonstrate that significant
Met
degradation is induced by HGF/SF and that this degradation can be blocked by lactacystin, an inhibitor of
proteasome
activity. We also show that
Met
is rapidly polyubiquitinated in response to ligand and that polyubiquitinated
Met
molecules, which are normally unstable, are stabilized by lactacystin. Both HGF/SF-induced degradation and polyubiquitination of
Met
were shown to be dependent on the receptor possessing intact tyrosine kinase activity. Finally, we found that a normally highly labile 55-kDa fragment of the
Met
receptor is stabilized by lactacystin and demonstrate that it represents a cell-associated remnant that is generated following the ligand-independent proteolytic cleavage of the
Met
receptor in its extracellular domain. This truncated
Met
molecule encompasses the kinase domain of the receptor and is itself tyrosine phosphorylated. We conclude that the ubiquitin-
proteasome
pathway plays a significant role in the degradation of the
Met
tyrosine kinase receptor as directed by ligand-dependent and -independent signals. We propose that this proteolytic pathway may be important for averting cellular transformation by desensitizing
Met
signaling following ligand stimulation and by eliminating potentially oncogenic fragments generated via extracellular cleavage of the
Met
receptor.
...
PMID:Degradation of the Met tyrosine kinase receptor by the ubiquitin-proteasome pathway. 900 Dec 34
An immunological hierarchy among three H-2Db-restricted cytotoxic T lymphocyte (CTL) determinants in simian virus 40 (SV40) large T antigen (Tag) was described previously: determinants I and II/III are immunodominant, whereas determinant V is immunorecessive. To assess the immunogenicity of each determinant individually and define mechanisms that contribute to the immunorecessive nature of determinant V, we constructed a panel of recombinant vaccinia viruses (rVVs) expressing minigenes encoding these determinants in various polypeptide contexts. We found the following. (i) Immunization of mice with an rVV encoding full-length SV40 Tag resulted in priming for CTL responses to determinants I and II/III but not determinant V. (ii) rVVs encoding peptide I or II/III in the cytosol or targeted to the endoplasmic reticulum (ER) were highly antigenic and immunogenic. (iii) rVVs encoding peptide V minigenes were antigenic and immunogenic if the peptide was targeted to the ER, expressed in the cytosol with short flanking sequences, or expressed from within a self-protein, murine dihydrofolate reductase. (iv) Presentation of the nonflanked peptide V (preceded by a
Met
codon only) could be enhanced by using a potent inhibitor of the
proteasome
. (v) H-2Db-epitope V peptide complexes decayed more rapidly than complexes containing epitope I or II/III peptides. In brefeldin A blocking experiments, functional epitope V complexes were detected longer on targets expressing ER-targeted epitope V than on targets expressing forms of epitope V dependent on the transporter associated with antigen processing. Therefore, limited formation of relatively unstable cell surface H-2Db complexes most likely contributes to the immunorecessive nature of epitope V within SV40 Tag. Increasing the delivery of epitope V peptide to the major histocompatibility complex class I presentation pathway by ER targeting dramatically enhanced the immunogenicity of epitope V.
...
PMID:An endoplasmic reticulum-targeting signal sequence enhances the immunogenicity of an immunorecessive simian virus 40 large T antigen cytotoxic T-lymphocyte epitope. 944 50
Fluorescence emission properties of the
alkaline protease
Esperase have been investigated using steady-state and time-resolved fluorescence spectroscopy. The local polarity and solvent accessibility of the tryptophyl chromophores is characterized. Quenching studies demonstrated that Trp 6 and Trp 113 are 'buried' to acrylamide, iodide ions and caesium ions. An abnormally low tryptophan quantum yield was calculated showing that the emission of the two indole rings is significantly quenched by nearby side chains or peptide bonds. The fluorescence decay of PMS-Esperase was well fitted by two exponentials with lifetimes of 2.7 and 0.35 ns. X-ray data for Esperase (S. Klupsch, Ph.D. Thesis, University of Hamburg, Hamburg, Germany) in the region of the two tryptophans were used to explain the observed emission properties. Gln 182 and Asn 204 as well as Asn 117 and
Met
119 are the most likely quenchers, respectively, of the Trp 6 and Trp 113 fluorescence. The two tryptophans in Esperase are 'buried' in hydrophobic regions and are excellent intrinsic probes to study folding-unfolding reactions. Experiments in the presence and absence of added calcium ions demonstrated the stabilizing role of the Ca(2+)-binding sites.
...
PMID:Steady-state and time-resolved fluorescence of Esperase: comparison with the X-ray structure in the region of the two tryptophans. 969 45
Inherited antithrombin deficiency is associated with a predisposition for familial venous thromboembolic disease. Pleiotropic effect-type mutants of antithrombin that have an amino acid replacement in a distal hinge region including strands 1C, 4B, and 5B of the polypeptide chain are known to exhibit impaired interactions with both thrombin and heparin, coupled with a secretion defect. To examine the mechanism of pleiotropic effect-type antithrombin deficiency, we expressed three mutants, Oslo (Ala404-->Thr), Kyoto (Arg406-->
Met
), and Utah (Pro407-->Leu), in baby hamster kidney (BHK) cells, and compared their secretion rates, affinities for heparin and abilities to form thrombin-antithrombin (TAT) complexes with those of wild-type (Wt) antithrombin. Pulse-chase experiments showed that the Oslo- and Kyoto-mutants were secreted at rates similar to Wt antithrombin. In contrast, the Utah-mutant underwent partial intracellular degradation. The intracellular degradation of the Utah-mutant was not inhibited by lysosomotropic inhibitors, but by
proteasome
inhibitors such as carbobenzoxy-L-leucyl-L-leucyl-L-leucinal (LLL) and lactacystin, indicating that a part of the Utah-mutant was degraded by
proteasome
through quality control in the endoplasmic reticulum (ER). Crossed immunoelectrophoresis in the presence of heparin showed that only the Oslo-mutant lacks heparin-binding ability. Incubation with thrombin showed that the Kyoto- and Utah-mutants, but not the Oslo-mutant, formed a weak but detectable TAT complex. Furthermore, heparin enhanced the TAT complex formation by the Kyoto- and Utah-mutants, suggesting heparin cofactor activities of these mutants. These results show that each of the Oslo-, Kyoto-, and Utah-mutants exhibits different properties as to secretion, intracellular degradation and functional activity, although they are grouped as pleiotropic effect-type mutants.
...
PMID:Cellular and functional characterization of three recombinant antithrombin mutants that caused pleiotropic effect-type deficiency. 999 Jan 21
MHC class I molecules display peptides selected from a poorly characterized pool of peptides available in the endoplasmic reticulum. We analyzed the diversity of peptides available to MHC class I molecules by monitoring the generation of an OVA-derived octapeptide, OVA257-264 (SL8), and its C-terminally extended analog, SL8-I. The poorly antigenic SL8-I could be detected in cell extracts only after its conversion to the readily detectable SL8 with carboxypeptidase Y. Analysis of extracts from cells expressing the minimal precursor
Met
-SL8-I by this method revealed the presence of SL8/Kb and the extended SL8-I/Kb complexes, indicating that the peptide pool contained both peptides. In contrast, cells expressing full length OVA generated only the SL8/Kb complex, demonstrating that the peptide pool generated from the full length precursor contained only a subset of potential MHC-binding peptides. Deletion analysis revealed that SL8-I was generated only from precursors lacking additional C-terminal flanking residues, suggesting that the generation of the C terminus of the SL8 peptide involves a specific endopeptidase cleavage. To investigate the protease responsible for this cleavage, we tested the effect of different protease inhibitors on the generation of the SL8 and SL8-I peptides. Only the
proteasome
inhibitors blocked generation of SL8, but not SL8-I. These findings demonstrate that the specificities of the proteases in the Ag-processing pathway, which include but are not limited to the
proteasome
, limit the diversity of peptides available for binding by MHC class I molecules in the endoplasmic reticulum.
...
PMID:Specific proteolytic cleavages limit the diversity of the pool of peptides available to MHC class I molecules in living cells. 1020 12
P311 is a mouse cDNA originally identified for its high expression in late-stage embryonic brain and adult cerebellum, hippocampus, and olfactory bulb. The protein product of P311, however, had not been identified previously, and its function remains unknown. We report here that P311 expression is regulated at multiple levels by pathways that control cellular transformation. P311 mRNA expression was decreased sharply in both neural and smooth muscle cells when the cells were transformed by coexpression of the oncogenic tyrosine kinase receptor
Met
and its ligand hepatocyte growth factor/scatter factor. The P311 mRNA was found to encode an 8-kDa polypeptide that was subject to rapid degradation by the lactacystin-sensitive ubiquitin/
proteasome
system and an unidentified metalloprotease, resulting in a protein half-life of about 5 min. These data suggest that P311 expression is dramatically decreased by several pathways that regulate cellular growth.
...
PMID:Regulation of P311 expression by Met-hepatocyte growth factor/scatter factor and the ubiquitin/proteasome system. 1066 May 86
N(alpha)-acetylation, catalyzed co-translationally with N(alpha)-acetyltransferase (NAT), is the most common modifications of eukaryotic proteins. In yeast, there are at least three NATs: NAT1, MAK3, and NAT3. The 20 S
proteasome
subunits were purified from the normal strain and each of the deletion mutants, nat1, mak3, and nat3. The electrophoretic mobility of these subunits was compared by two-dimensional gel electrophoresis. Shifts toward the alkaline side of the gel and unblocking of the N terminus of certain of the subunits in one or another of the mutants indicated that the alpha1, alpha2, alpha3, alpha4, alpha7, and beta3 subunits were acetylated with NAT1, the alpha5 and alpha6 subunits were acetylated with MAK3, and the beta4 subunit was acetylated with NAT3. Furthermore, the Ac-
Met
-Phe-Leu and Ac-
Met
-Phe-Arg termini of the alpha5 and alpha6 subunits, respectively, extended the known types of MAK3 substrates. Thus, nine subunits were N (alpha)-acetylated, whereas the remaining five were processed, resulting in the loss of the N-terminal region. The 20 S proteasomes derived from either the nat1 mutant or the normal strain were similar in respect to chymotrypsin-like, trypsin-like, and peptidylglutamyl peptide hydrolyzing activities in vitro, suggesting that N(alpha)-acetylation does not play a major functional role in these activities. However, the chymotrypsin-like activity in the absence of sodium dodecyl sulfate was slightly higher in the nat1 mutant than in the normal strain.
...
PMID:N(alpha)-acetylation and proteolytic activity of the yeast 20 S proteasome. 1067 91
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