UNIPROT:P15088 - FACTA Search

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

Hydrolysis of ursodeoxycholyl-p-aminobenzoic acid (PABA-UDCA), a synthetic bile acid conjugate used for the evaluation of the activity of intestinal bacterial growth, was studied with pancreatic enzymes, carboxypeptidase A, carboxypeptidase B, trypsin alpha-chymotrypsin, cholylglycine hydrolase, liver homogenate, small intestinal homogenates, and plasma, in comparison with the hydrolysis of glycocholic acid, ursodeoxycholyl-L-leucine (L-Leu-UDCA), and ursodeoxycholyl-L-lysine (L-Lys-UDCA). PABA-UDCA was specifically cleaved by bacterial cholylglycine hydrolase to ursodeoxycholic acid and para-aminobenzoic acid (PABA), but not by pancreatic enzymes. L-Leu-UDCA was cleaved by pancreatic enzymes, carboxypeptidase A, and cholylglycine hydrolase. L-Lys-UDCA was cleaved by pancreatic enzymes, carboxypeptidase B, and cholylglycine hydrolase. The small amount of glycocholic acid was cleaved by pancreatic enzymes and carboxypeptidase A and B, and cholylglycine hydrolase hydrolyzed glycocholic acid completely. In everted gut sac experiments, PABA-UDCA was absorbed by active transport in the rat terminal ileum, and the same rate of PABA was absorbed by passive diffusion in the four segments of the rat small intestine. These observations indicate that PABA-UDCA test can evaluate the activity of small intestinal bacterial growth.
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PMID:Hydrolysis and absorption of a conjugate of ursodeoxycholic acid with para-aminobenzoic acid. 263 32

We tested four synthetic substances for their histochemical value to demonstrate the catalytic activities of chymase or tryptase in mast cells in sections of human gut. Both Suc-Ala-Ala-Phe-4 methoxy-2-naphthylamide (MNA) and N-acetyl-L-methionine-alpha-naphthyl ester (alpha-N-O-Met) reacted with chymase but not tryptase in mast cells. Conversely, D-Val-Leu-Arg-MNA and Z-Ala-Ala-Lys-MNA were hydrolyzed by mast cell tryptase but not chymase. These results were confirmed by use of two inhibitors of chymotrypsin-like activity, chymostatin and Z-Gly-Leu-Phe-chloromethyl ketone (CK) and two inhibitors of trypsin-like activity, Tos-Lys-CK and D-Val-Leu-Arg-CK. Excellent staining reactions were obtained on cryostat sections of unfixed or aldehyde-fixed tissues and on paraffin sections of Carnoy-fixed tissues. For chymase, however, Suc-Ala-Ala-Phe-MNA is preferred on cryostat sections because it is more specific. On paraffin sections alpha-N-O-Met is preferred because other cells are not then stained. For tryptase, Z-Ala-Ala-Lys-MNA was more selective and more specific and is the preferred general purpose substrate on cryostat sections of aldehyde-fixed tissues and for paraffin sections. D-Val-Leu-Arg-MNA is the preferred substrate for cryostat sections of unfixed tissue. Only a limited number of mast cells showed a reaction for chymase, and these occurred mainly in the submucosa. All mast cells, however, gave a reaction for tryptase, and we recommend the use of either substrate for this enzyme for routine detection of mast cells in human tissues. Double staining for the two main mast cell proteases is most conveniently undertaken on paraffin sections of Carnoy-fixed tissues using MNA substrates for tryptase and alpha-N-O-Met for chymase.
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PMID:Enzyme histochemical discrimination between tryptase and chymase in mast cells of human gut. 264 38

Tryptase from human mast cells is stabilized by negatively charged macromolecules such as heparin and is not affected by the protein inhibitors of serine proteinases normally present in human extracellular fluids. The current study demonstrated inhibition of tryptase-catalyzed cleavage of tosyl-Gly-Pro-Lys-p-nitroanilide by histamine and calcium, and destablization only by calcium. Calcium-mediated inhibition was competitive with a Ki of 30 mM. Cooperation of calcium with other extracellular cations or concentrations of calcium possible within cells or granules may permit calcium-mediated inhibition to occur in vivo. In contrast, only 5 mM calcium is needed to cause an irreversible 50% loss of tryptase activity after 60 min at room temperature. Histamine and N-methyl histamine concentrations of 2 mM to 10 mM inhibited tryptase activity by a different mechanism than calcium, resulting in sigmoid rather than hyperbolic kinetics. Whether this reflects cooperative binding of histamine to tryptase or conformational alterations of tryptase is not known. These concentrations of histamine are most relevant to those in mast cell secretory granules estimated at 100 mM, where tryptase is stored fully active and where histamine may play a role in attenuating tryptase activity.
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PMID:Effect of histamine and divalent cations on the activity and stability of tryptase from human mast cells. 265 89

The amino acid sequence of human mast cell tryptase was determined from corresponding cDNA cloned from a lambda ZAP library made with mRNA derived from a human mast cell preparation. Tryptase is the major neutral protease present in human mast cells and serves as a specific marker of mast cells by immunohistologic techniques and as a specific indicator of mast cell activation when detected in biologic fluids. Based on nucleic acid sequence, human tryptase consists of a 244-amino acid catalytic portion of 27,423 D with two putative N-linked carbohydrate binding sites and a 30-amino acid leader sequence of 3,048 D. A His74, Asp120, Ser223 catalytic triad and four cystine groups were identified by analogy to other serine proteases. Regions of amino acid sequence that are highly conserved in serine proteases, in general, were conserved in tryptase. The catalytic portion of human tryptase had an 84% amino acid sequence similarity with that of dog tryptase; their leader sequences had a 67% similarity. Asp217 in the substrate binding pocket of human tryptase is consistent with a specificity for Arg and Lys residues at the site of cleavage (P1), whereas Glu245 is consistent with the known preference of human tryptase for substrates with Arg or Lys also at P3, analogous residues also being present in dog tryptase. Asp244, which is substituted for the Gly found in dog tryptase and in most serine proteases, is present in the putative substrate binding pocket and may confer additional substrate specificity on human tryptase for basic residues. Further studies now can be designed to elucidate these structure-function relationships.
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PMID:Cloning and characterization of complementary DNA for human tryptase. 267 49

A tissue carboxypeptidase-A-like enzyme was purified to apparent homogeneity from terminally differentiated epidermal cells of 2-day-old rats by potato inhibitor affinity chromatography followed by FPLC Mono Q column chromatography. The enzyme has an Mr of 35,000 as determined by SDS-polyacrylamide gel electrophoresis and HPLC gel filtration. It has a pH optimum of 8.5 for hydrolysis of benzyloxycarbonyl-Phe-Leu (Km = 0.22 mM, kcat = 57.9 s-1). The enzyme does not hydrolyze substrates with Arg, Lys and Pro at the C-terminal and Pro at the penultimate position. Angiotensin I was effectively hydrolyzed (Km = 0.06 mM, kcat = 6.48 s-1) and produced both des-Leu10-angiotensin I and angiotensin II. The enzyme activity, relatively stable at 4 degrees C and pH 8.0-10.5, was inactivated at pH values higher than 12.0 and lower than 5.0 or at 65 degrees C for 10 min. Inhibitor profiles of the epidermal enzyme also differed slightly from those of tissue carboxypeptidase A of pancreatic or mast cell origin.
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PMID:Purification and characterization of carboxypeptidase from terminally differentiated rat epidermal cells. 271 18

The tetrapeptide acetyl-N-Ser-Asp-Lys-Pro (AcSDKP) has been shown to inhibit in vivo the hematopoietic stem cell (spleen colony-forming unit; CFU-S) entry into cell cycle in cytosine arabinoside-treated mice. Our data showed that AcSDKP has no effect on interleukin 3 (IL-3)-dependent DA-1 cell proliferation or on granulocyte-macrophage colony-forming cell and mast cell colony formation, whereas it enhances the adherence of CFU-S to the bone marrow-derived hematopoietic supportive stromal cell line MS-1-T. AcSDKP suppresses MS-1-T proliferation but does not modify granulocyte-macrophage colony-stimulating activity secretion by these cells. This suggests that the peptide does not counteract the activity of the IL-3 receptor on CFU-S but acts on MS-1-T and in particular at the level of CFU-S/MS-1-T interactions.
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PMID:Enhancement of the adherence of hematopoietic stem cells to mouse bone marrow-derived stromal cell line MS-1-T by a tetrapeptide acetyl-N-Ser-Asp-Lys-Pro. 276 82

To find a possible explanation for the selective hepatic conjugation of bile acids with glycine or taurine, the N-acyl amidates of cholic acid and a number of amino acids and amino acid analogues were synthesized, and their susceptibility to hydrolysis by pancreatic juice, gastric juice, serum, or small intestinal mucosal enzymes was measured. Deconjugation by pure carboxypeptidase A and B was also examined, and hydrolysis by these tissue fluids and enzymes was compared with that mediated by a bacterial cholylglycine hydrolase. Human pancreatic juice efficiently hydrolyzed cholyl conjugates of all neutral-L-amino acids (cholyl-L-alanine, cholyl-L-valine, cholyl-L-leucine, and cholyl-L-tyrosine), except cholylglycine. The net hourly rate of hydrolysis (in micromoles per milligram protein per hour) increased when the terminal residue was aromatic or branched aliphatic, and appeared to be specific for L-alpha-amino acids as cholyl-beta-alanine and cholyl-D-valine were not cleaved. From cholyl glycylglycine, only the terminal glycine was efficiently removed. Cholyltaurine and cholyl conjugates with the methyl and propyl analogues of taurine were resistant to hydrolysis. Two basic amino acid conjugates (cholyl-L-lysine and cholyl-L-arginine) were cleaved, whereas conjugates of acidic amino acids (cholyl-aspartate and cholyl-cysteate) were not cleaved. Studies using pure enzymes showed that bovine carboxypeptidase A hydrolyzed the cholyl conjugates of the neutral L-alpha-amino acids with similar specificity as observed for the human pancreatic juice, whereas bovine carboxypeptidase B cleaved the basic amino acid conjugates. Cholyl-L-lysine and cholyl-L-arginine were also cleaved by serum and plasma, which are known to possess carboxypeptidase activity. Cholyl conjugates were not cleaved by gastric juice, by trypsin, or by homogenates of rat small intestinal mucosa. In contrast, all cholyl conjugates were cleaved by a bacterial cholylglycine hydrolase. These experiments indicate that glycine and taurine amidates of cholic acid differ from a number of other conjugates with neutral and basic amino acid in being resistant to hydrolysis by pancreatic and plasma carboxypeptidases.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Pancreatic carboxypeptidase hydrolysis of bile acid-amino conjugates: selective resistance of glycine and taurine amidates. 286

Synthetic lysinoalanine (LAL) may be a more effective inhibitor of the zinc-containing enzyme carboxypeptidase A than is ethylenediamine tetraacetic acid (EDTA). The enzyme is also inactivated by alkali-treated, lysinoalanine-containing food proteins such as casein, high-lysine corn protein, lactalbumin, soy protein isolate, and wheat gluten, and by alkali-treated zein, which contains no lysinoalanine. Zinc sulfate regenerates only part of the enzymatic activity after exposure to the treated proteins. The extent of inhibition increases with protein concentration and time of treatment. Any inhibition due to phytate is distinct from that due to the treatment. Phenylethylaminoalanine (PEAA), derived from biogenic phenylethylamine, inhibited enzymatic activity of the metalloenzyme carboxypeptidase A (CPA). The inhibition was maximal at pH 7.0 in the pH range 7 to 8.5. The extent of inhibition increased with time of treatment and PEAA concentration. N-acetyl-PEAA did not inhibit the enzyme, suggesting that the free alpha-NH2 group is required for inhibition. PEAA, LAL, sodium phytate, and cysteine also inactivated the copper enzyme, polyphenol, oxidase (tyrosinase) which plays a major role in enzymatic (oxidative) browning of foods. Analogous comparative studies with LAL, EDTA, and sodium phytate suggest that the potency of PEAA as an inhibitor of CPA is similar to that of sodium phytate, and that of the four compounds tested, PEAA is least effective against tyrosinase. Related studies of the iron and copper containing enzyme cytochrome C oxidase showed that EDTA was not inhibitory, PEAA was slightly inhibitory, and LAL and sodium phytate were stronger inhibitors. Mechanistic explanations are offered to account for some of these observations. The possible relevance of these findings to in vivo protein digestion, enzymatic (oxidative) browning of foods, and the mechanism of the lysinoalanine effect on kidney cells are also discussed.
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PMID:Inactivation of metalloenzymes by lysinoalanine, phenylethylaminoalanine, alkali-treated food proteins, and sulfur amino acids. 302 44

A tryptic protease with the characteristics of a mast cell tryptase was purified from dog mastocytoma cells propagated in nude mice. Partial amino acid sequence of the mastocytoma tryptase revealed unexpected differences in comparison with other mast cell and leukocyte granule protease sequences. Extraction from mastocytoma homogenates at high ionic strength, followed by gel filtration and benzamidine affinity chromatography yielded a product with several closely spaced bands (Mr 30,000-32,000) on gel electrophoresis and a single N-terminal sequence. Nondenaturing analytical gel filtration revealed an apparent Mr of 132,000, suggesting noncovalent association as a tetramer. Studies with peptide p-nitroanilides indicated pronounced substrate preferences, with P1 arginine preferred to lysine. Benzoyl-L-Lys-Gly-Arg-p-nitroanilide was the best of the substrates screened. Inhibition by diisopropyl fluorophosphate and tosyllysine chloromethyl ketone indicated that the enzyme is a serine protease. Like the tryptases of human mast cells, mastocytoma tryptic protease was inhibited by NaCl, resistant to inactivation by alpha 1-proteinase inhibitor and plasma, and stabilized by heparin. Comparison of the N-terminal 24 residues of mastocytoma tryptase revealed 80% identity with the more limited sequence reported for human lung tryptase, and surprisingly, closer homology to serine proteases of digestion and clotting than to other leukocyte granule proteases sequenced to date, including mast cell chymase. The N-terminal isoleucine is the homolog of trypsinogen Ile-16 which becomes the new N-terminus upon cleavage of the activation peptide. Thus, the tryptase N-terminus is related to the catalytic domain of activated serine proteases, and lacks the N-terminal regulatory domains found in most clotting and complement serine proteases. These findings provide further evidence that tryptases are unique serine proteases and that they may be less closely related in evolution and function than are other leukocyte granule proteases described to date.
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PMID:Dog mastocytoma tryptase: affinity purification, characterization, and amino-terminal sequence. 311 12

The complete amino-acid sequence of L-lactate-dehydrogenase from the mesophilic Bacillus megaterium was determined. 92% of the 318 amino acids were established by sequence analysis of the N-terminus, of four CNBr fragments and of one fragment obtained by cleavage with BNPS-skatole. The primary structure was completed by sequencing overlapping fragments obtained by further cleavage of suitable CNBr fragments and BNPS fragments with either trypsin, endoproteinase Lys-C, o-iodosobenzoic acid or hydroxylamine. The C-terminal amino acids were determined by degradation with carboxypeptidase A. The sequence homology between lactate dehydrogenases from B. megaterium and those from other Bacilli is 59-61% and 35-37% to those from higher organisms. The high sequence homology among lactate dehydrogenases from Bacilli, adapted to different temperatures, allows comparative studies of the structural basis of protein thermostability.
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PMID:Structure and function of L-lactate dehydrogenases from thermophilic and mesophilic bacteria, V. The complete amino-acid sequence of the mesophilic L-lactate dehydrogenase from Bacillus megaterium. 311

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