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: UNIPROT:P15088 (mast cell)
14,925 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Mast cell-dependent late-phase reactions (LPR) occur in rat skin and are characterized histologically by an early (1 to 8 hours) neutrophil-rich infiltrate, which is essential to a later (24 hours) infiltration by mononuclear cells. Although the ability of preformed mast cell-granule constituents alone to elicit LPR is clearly established, the relative pathogenetic contributions of newly generated lipid mediators to rat LPR are unknown. Leukotriene B4 (LTB4) may be generated by stimulated mast cells in a number of species and might potentially contribute to the neutrophil ingress. In order to examine this possibility in a well-characterized animal model of LPR, the capacity of LTB4 to influence rat cutaneous inflammation was studied. LTB4 (0.1 to 100 ng) alone did not induce vasopermeability in rat skin nor potentiate the blueing response to histamine. Intracutaneous LTB4 (0.1 to 100 ng) did not cause significant infiltration of neutrophils 3 to 4, 6 to 8, or 24 hours after injection; increased numbers of mononuclear leukocytes were not appreciated through 24 hours. In the same animals intracutaneous anti-IgE and intact mast cell granules both produced intense biphasic infiltration characteristic of rat LPR. In order to examine if rat polymorphonuclear leukocytes were capable of responding to LTB4, several in vitro studies were performed. Rat peritoneal and peripheral blood neutrophils migrated toward formyl-methionyl-leucyl-phenyl-alanine in vitro but not to purified human or synthetic LTB4. Rat peripheral blood and elicited peritoneal neutrophils bound only 32% and 27%, respectively, of the quantity of [3H]LTB4 bound by human neutrophils.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:In vivo and in vitro assessment of the role of leukotriene B4 as a mediator of rat cutaneous late-phase reactions. 300 77

A glutamic acid residue at the active-site of bovine lung angiotensin I-converting enzyme was esterified with p-[N,N-bis-(chloroethyl)amino]phenylbutyryl-L-[U-14]-Proline (chlorambucyl-L-[U-14C]-L-Proline), an affinity label for this enzyme. The radiolabeled enzyme was digested with BrCN and only 1 of the 30 cleavage peptides resolved by reverse-phase HPLC contained the bound radiolabel. This active-site peptide (Mr approximately 16,000) was digested with trypsin, and the labeled peptide (T-2) was further degraded with thermolysin. The enzyme digest peptides were also resolved by reverse-phase HPLC. Only 1 of the 5 peptides obtained after thermolysin digestion (Th-1, Mr 1290) contained the bound radiolabel. Th-1 (12 residues) was subjected to manual Edman degradation and the following partial sequence was determined: H2N-Phe-Thr-Glu-Leu-Ala-Asp-Ser-Glu. The radiolabel was released at cycle 3 and the amount recovered was equivalent to the amount of PTH-Glu detected on HPLC. Thus, glutamic acid is esterified with chlorambucyl-L-[U-14C]-Proline which confirms our earlier findings. The sequence that we determined is homologous in five residues with the corresponding sequences of carboxypeptidase A and B, two other mammalian zinc-proteases. There is little sequence homology with thermolysin, a bacterial zinc-protease that also contains an essential active-site glutamic acid residue.
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PMID:Isolation and sequencing of an active-site peptide from angiotensin I-converting enzyme. 302 71

MTX peptides in which the amino acid was linked to the alpha-carboxyl group have been prepared and examined for cytotoxicity before and after treatment with proteolytic enzymes. The alanine, aspartic acid and arginine derivatives (MTX-ala, MTX-asp and MTX-arg) were synthesized by a regio-specific route, following the general procedures of Rosowsky and Montgomery. Each compound was obtained in good yield, and purity was established by TLC, HPLC, absorbance spectra and elemental analyses. The MTX peptides were not hydrolyzed by a variety of proteolytic enzymes (e.g., trypsin, plasmin, urokinase, aminopeptidase). Pancreatic carboxypeptidase A, however, hydrolyzed MTX-ala readily, MTX-asp slowly and MTX-arg not at all. The MTX-ala and, to a lesser extent, MTX-arg were substrates for pancreatic carboxypeptidase B. MTX-arg was also hydrolyzed by the endogenous carboxypeptidase N in human serum. The cytotoxicity of these MTX peptides toward L1210 cells was measured in a microculture assay system using a tetrazolium dye. MTX-ala was weakly cytotoxic (ID50 = 2.0 x 10(-6)M) compared to MTX (ID50 = 2.4 x 10(-8)M). When MTX-ala was tested in the presence of carboxypeptidase A, the ID50 value improved to 8.5 x 10(-8)M. MTX-arg gave an ID50 of 5.0 x 10(-8)M, which was not unexpected in view of its susceptibility to hydrolysis by the carboxypeptidase activity present in the fetal calf serum of the culture medium. Inclusion of carboxypeptidase B lowered the ID50 value to 2.5 x 10(-8)M. Possible clinical uses of MTX peptides are discussed.
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PMID:Chemotherapeutic potential of methotrexate peptides. 307 29

The amino acid sequence of the activation peptide of bovine pro-carboxypeptidase A subunit I has been determined by automated Edman degradation of the cyanogen bromide fractions derived from the precursor protein. The activation peptide contains 94 amino acid residues in a unique sequence which precedes directly the amino-terminal alanine residue of carboxypeptidase A alpha. A notable feature of the activation peptide is the presence of acidic amino acid residues immediately preceding the site of activation. The amino acid sequence of the activation peptide of bovine pro-carboxypeptidase A shows extensive similarity to those of the corresponding porcine and rat enzymes.
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PMID:The amino acid sequence of the activation peptide of bovine pro-carboxypeptidase A. 314 5

Three major 32P-labeled polypeptides were found in the soluble fraction of bovine lenses cultured in a medium containing [32P]orthophosphate. Two of the polypeptides corresponded to the phosphorylated A and B chains of alpha-crystallin. In this communication, the third polypeptide is now identified. This polypeptide is characterized by a molecular weight of 27,000 and a pI of 6.6, eluted exclusively in the beta Low fraction of a CL-6B gel filtration separation of lens soluble material, and could be further purified by DE52 anion exchange chromatography. The only 32P-labeled amino acid detected was phosphoserine. A single 32P-labeled peptide was observed after tryptic digestion and two-dimensional mapping. The amino acid sequence of the purified peptide is Gly-Ala-Phe-His-Pro-Ser-Ser. This sequence exactly matches the expected C-terminal tryptic fragment, residues 198-204, of the bovine beta-crystallin B2. The results of carboxypeptidase A digestion of the 32P-labeled peptide suggest that only Ser203 is phosphorylated. By using the catalytic subunit of the cAMP-dependent protein kinase, purified beta B2 was phosphorylated in vitro, generating a single 32P-labeled polypeptide with the identical pI as the phosphorylated polypeptide obtained from lens culture. On the basis of these data, the Mr 27,000 32P-labeled polypeptide is identified as the phosphorylated form of the beta-crystallin B2.
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PMID:Phosphorylation of beta-crystallin B2 (beta Bp) in the bovine lens. 317 May 71

Crystallographic analysis of the binding of mercaptoacetyl-L-valyl-L-tryptophan to thermolysin suggests that this inhibitor is hydrolyzed by the crystalline enzyme. The apparent product of hydrolysis, L-valyl-L-tryptophan (Val-Trp), occupies the S1'-S2' subsites of the active site, not the S1-S1' subsites as observed previously for the dipeptide L-alanyl-L-phenylalanine (Ala-Phe). The difference in binding of Val-Trp and Ala-Phe is consistent with the specificity requirements and preferences of thermolysin. The binding of Val-Trp illustrates the mode of interaction of one of the products of peptide hydrolysis. High resolution crystallographic refinement indicates that the valyl amino group makes three hydrogen bonds to the enzyme and to solvent and, in addition, is 2.8 A from the carboxylate of Glu-143. This is the first instance in which a direct interaction has been observed between Glu-143 and the scissile nitrogen. As such, the study directly supports the mechanism of action for thermolysin proposed by Hangauer et al. (Hangauer, D. G., Monzingo, A. F., and Matthews, B. W. (1984) Biochemistry 23, 5730-5741) and, by analogy, indirectly supports the similar mechanism proposed for carboxypeptidase A (Monzingo, A. F., and Matthews, B. W. (1984) Biochemistry 23, 5724-5729).
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PMID:The binding of L-valyl-L-tryptophan to crystalline thermolysin illustrates the mode of interaction of a product of peptide hydrolysis. 334 46

The filamentous coliphage M13 possesses multiple copies of a 50-residue coat protein which is inserted into the inner membrane of Escherichia coli during infection. 13C nuclear magnetic resonance (NMR) spectroscopy has been used to probe the structure and dynamics of M13 coat protein solubilized in detergent micelles. A comparison of backbone dynamics within the hydrophobic core region and the hydrophilic terminal domains was obtained by biosynthetic incorporation of [3-13C]alanine. Alanine is distributed throughout the protein and accounts for 10 residues (i.e., 20% of the total). Similar 13C NMR spectra of the protein have been obtained in two anionic detergents, sodium deoxycholate and sodium dodecyl sulfate, although the structures and physical properties of these solubilizing agents are quite different. The N-terminal alanine residues, assigned by pH titration, and the penultimate residue, assigned by carboxypeptidase A digestion, give rise to analogous peaks in both detergent systems. The pKa of Ala-1 (approximately 8.8) and the relaxation parameters of individual carbon atoms (T1, T2, and the nuclear Overhauser enhancement) are also generally similar, suggesting a similarity in the overall protein structure. Relaxation data have been analyzed according to the model-free approach of Lipari and Szabo [Lipari, G., & Szabo, A. (1982) J. Am. Chem. Soc. 104, 4546-4559]. The overall correlation times were obtained by fitting the three experimental relaxation values for a given well-resolved single carbon atom to obtain a unique value for the generalized order parameter, S2, and the effective correlation time, tau e. The former parameter reflects the spatial restriction of motion, and the latter, the rate.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Backbone dynamics of a model membrane protein: 13C NMR spectroscopy of alanine methyl groups in detergent-solubilized M13 coat protein. 351 30

Pigeon liver malic enzyme was found to have arginine, alanine, and tyrosine as the only N-terminal, N-1, and N-2 amino acids, respectively. Hydrolysis of the reduced and carboxymethylated malic enzyme by carboxypeptidase A yielded quantitative evidence for the following C-terminal sequence: -Leu-(Phe-Ala)-Ile-Leu-COOH. Fifty-five trypsin-digested peptides were separated by HPLC, in accordance with the arginine and lysine contents of each subunit. This more direct structural evidence strongly supports the conclusion that pigeon liver malic enzyme is composed of four chemically identical subunits.
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PMID:Structural identity of the subunits of pigeon liver malic enzyme. 367 71

Three thioamide peptides in which the oxygen atom of the scissile peptide bond is replaced by sulfur (denoted by (= S)) were synthesized and found to be good, convenient substrates for carboxypeptidase A. The thioamide bond absorbs strongly in the ultraviolet region, and enzymatic hydrolysis is monitored easily using a continuously recording spectrophotometric assay. The reaction follows Michaelis-Menten kinetics with kcat values of 68, 9.0, and 3.7 sec-1 and Km values of 0.83, 0.81, and 0.53 mM for Z-Glu-Phe(= S)-Phe, Z-Gly-Ala(= S)-Phe, and Z-Phe(= S)-Phe, respectively. Activities of the thioamides and their oxygen amide analogs were determined with a series of metal-substituted carboxypeptidases. The Cd(II), Mn(II), Co(II), and Ni(II) enzymes exhibit 30%-35%, 60%-85%, 150%-190%, and 40%-55% of the Zn(II) enzyme activity with the amide substrates; this compares with 240%-970%, 0%-15%, 340%-840%, and 30%-140% of the Zn(II) activity, respectively, with the thioamides. The activity of the Cu(II) and Hg(II) enzymes is less than 3% toward all substrates. Cadmium, a thiophilic metal, yields an enzyme which is exceedingly active with the thioamides; the kcat/Km values are 2.4-9.7-fold higher than with Zn(II) carboxypeptidase. In contrast, Mn(II), which has a relatively low affinity for sulfur, yields an enzyme with correspondingly low activity toward the thioamides. The results are consistent with a mechanism for peptide bond hydrolysis in which the metal atom interacts with the substrate carbonyl atom during catalysis.
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PMID:Thioamide substrate probes of metal-substrate interactions in carboxypeptidase A catalysis. 380 99

Fumarases in the mitochondrial and cytosolic fractions of rat liver were separately purified and crystallized. These two fumarases were not distinguishable in physicochemical, catalytic, or immunochemical properties. The sequences of seven amino acids in the C-terminal portions of the two fumarases were shown using carboxypeptidase P to be identical, i.e.-Val-Asp-Glu-Thr-Ala-Leu-Lys-. The amino acid sequence of the N-terminal portion of the mitochondrial fumarase was determined by the Edman method as Ala-Gln-Gln-Asn-Phe-Glu-Ile-Pro-Asp-, but that of the cytosolic fumarase could not be determined by the Edman method, since the N-terminal amino acid was blocked. The N-terminal amino acid of the cytosolic fumarase was identified as N-acetyl-alanine by analysis of the acidic amino acid produced by digestion of the enzyme protein with pronase E, carboxypeptidase A and B. Then the sequence of five amino acids in the N-terminal portion was determined by analyzing the acidic peptide obtained by limited proteolysis of the enzyme protein with carboxypeptidase A as Ac-Ala-Ser-Gln-Asn-Ser-. Peptide mapping of the tryptic peptides obtained from the mitochondrial and cytosolic fumarases showed no difference in the amino acid sequences of the two except in their N-terminal portions. The turnover rates of the mitochondrial and cytosolic fumarases were determined by injecting L-[U-14C]leucine into rat and following the decay of specific radioactivity incorporated into immunoprecipitates from the partially purified enzyme. The half-life of the cytosolic fumarase was estimated as 4.8 days from the decay curve of its specific radioactivity. The decay curve of the specific radioactivity of the mitochondrial fumarase, obtained after a single injection of L-[U-14]leucine, was quite unusual: its specific radioactivity remained constant for about 7 days after pulse labeling, and then decreased exponentially with a half-life of 9.7 days. Similar amounts of cytosolic and mitochondrial fumarase were found in the livers of the rat, mouse, rabbit, dog, chicken, snake, frog, and carp, respectively. Similar subcellular distributions of the enzyme were also found in the kidney, heart, and skeletal muscle of rats, and in hepatoma cells (AH-109A). However, in rat brain no fumarase activity was detected in the cytosolic fraction. Two putative precursor polypeptides of rat liver fumarase were synthesized when rat liver RNA was translated in vitro in a rabbit reticulocyte lysate system.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Mechanism of synthesis and localization of mitochondrial and cytosolic fumarases in rat liver. 381 85


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