UNIPROT:P15088 - FACTA Search

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)

Sequence analysis of aminopeptidase N has shown that this zinc exopeptidase contains a consensus sequence (Val-Xaa-Xaa-His-Glu-Xaa-Xaa-His), generally found at the active site of zinc endopeptidases [Jongeneel, C. V., Bouvier, J. and Bairoch, A. (1989) FEBS Lett. 242, 211-214]. This suggests that the active site of aminopeptidase N may be closer to that of a classical zinc endopeptidase, such as thermolysin, than to that of an exopeptidase, such as carboxypeptidase A, which does not contain the above sequence. However, the nature of the other amino acids involved in the enzymatic activity of the eukaryotic aminopeptidase N remains unknown. Chemical modifying agents have now been used to characterize the active site of aminopeptidase N further. The location of the modified residues was also determined by comparing the protection given by three competitive inhibitors which interact with different subsites of the active site. Aminopeptidase N was rapidly inactivated by 2,3-butanedione and diethylpyrocarbonate and partially inactivated by N-acetylimidazole, diazoacetamide and a soluble carbodiimide, suggesting the presence of functional arginyl, histidyl, tyrosyl and aspartyl/glutamyl residues. In each case the reaction kinetics showed that the inactivation could be correlated with modification of a single residue. The protection experiments indicated that the residues are at the active site of the enzyme and that the arginine and tyrosine are probably located in the S'1-S'2 subsites, histidine in the S1 subsite and the acidic residue near the zinc binding site and the S'1 subsite. Steady-state kinetics showed that the arginine, histidine and acidic residues are involved in substrate binding, while the tyrosine may play a role in the catalytic process. All these data support an endopeptidase-like structure for the active site of aminopeptidase N.
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PMID:Functional residues at the active site of aminopeptidase N. 167 19

Several lines of evidence suggest a possible role for mast cell proteases in modulating the biologic effects of neuropeptides. To explore the potential of such interactions in human airway, we examined the activity of human tryptase, the major secretory protease of human lung mast cells, against several neuropeptides with proposed regulatory functions in human airway. Using highly purified tryptase obtained from extracts of human lung, we determined the sites and rats of hydrolysis of vasoactive intestinal peptide (VIP), peptide histidine-methionine (PHM), calcitonin gene-related peptide (CGRP), and the tachykinins substance P (SP), neurokinin A (NKA), and neurokinin B (NKB). Tryptase hydrolyzes VIP rapidly at several sites (Arg12, Arg14, Lys20, and Lys21) with an overall kcat/Km of 1.5 x 10(5) M-1 s-1 and hydrolyzes PHM primarily at a single site (Lys20) with a kcat/Km of 1.9 x 10(4) M-1 s-1. Tryptase also rapidly hydrolyzes CGRP at two sites (Arg18 and Lys24) with a kcat/Km of 2.7 x 10(5) M-1 s-1. The tachykinins are not hydrolyzed by tryptase. These observations raise the possibility that tryptase-mediated degradation of the bronchodilators VIP and PHM combined with exaggerated mast cell release of tryptase may contribute to the increase in bronchial responsiveness and the decrease in immunoreactive VIP in airway nerves associated with asthma. The favorable rates of hydrolysis of CGRP suggest that tryptase may also terminate the effects of CGRP on bronchial and vascular smooth muscle tone and permeability.
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PMID:Degradation of airway neuropeptides by human lung tryptase. 169 72

A comparative study on the metal environment of Zn(II)-carboxypeptidase A (ZnCPD) and Co(II)-carboxypeptidase A (CoCPD) in their solution and crystalline forms using the X-ray absorption fine structure (XAFS) technique has been conducted. The first coordination sphere of Zn for ZnCPD in its solution state is found to consist of two distributions of atoms, with four atoms (N or O) located at an average distance of 2.03 +/- 0.01 A and one atom (N or O) located at 2.57 +/- 0.04 A. The four-atom distribution remains the same for ZnCPD in its crystalline state, but the fifth atom is found at 2.36 +/- 0.04 A. Examination of the higher coordination shell, between 2.7 and 4.2 A, reveals the presence of two imidazoles. Combined with X-ray crystallographic results, a structural model is proposed. The four atoms at an average distance of 2.03 A are assigned to the two delta 1 nitrogens of His-69 and His-196, one epsilon 1 oxygen of Glu-72, and the oxygen of a coordinated water molecule. The atom at 2.57 A for ZnCPD in solution is assigned to the epsilon 2 oxygen of Glu-72. The results for CoCPD in solution are similar with the four atoms at an average distance of 2.08 +/- 0.01 A and one atom at 2.50 +/- 0.04 A, which moves to 2.34 +/- 0.04 A in the crystalline enzyme. The intensity of the 3d "pip" peak for CoCPD is consistent with a distorted tetragonal metal geometry for the solution form of the enzyme which is converted to a more pentacoordinated metal site for the crystalline enzyme. The first shell distribution of crystalline CoCPD is quite disordered, which may be largely due to the disorder of His-69 and His-196 as indicated by higher shell analysis. Thus, the XAFS studies show that the metal coordination spheres in the zinc and cobalt enzymes are quite similar in the solution state but differ from their crystalline counterparts. The XAFS studies provide the necessary background for measurement of substrate- and inhibitor-promoted structural changes in the metal coordination sphere of the zinc and other metal-substituted carboxypeptidases in the solution state.
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PMID:X-ray absorption fine structure study of the active site of zinc and cobalt carboxypeptidase A in their solution and crystalline forms. 173 63

In this study, galactose dehydrogenase (EC 1.1.1.48) was chosen as a prototype target protein to investigate the capability of metal affinity precipitation to facilitate the purification of genetically engineered proteins. A DNA fragment encoding five histidine residues was fused to the 3'-terminal end of the galactose dehydrogenase gene from Pseudomonas fluorescens and thereafter expressed in Escherichia coli. The additional five histidines functioned as an affinity tail and the modified enzyme could be purified using metal affinity precipitation when the metal-chelate complex with ethylene glycol-bis-(beta-aminoethyl ether) N,N,N',N'-tetra-acetic acid, EGTA(Zn)2, was added to the protein solution. The affinity tail could also be applied for the purification of the fusion protein utilising immobilised metal affinity chromatography. After purification, the pentahistidine affinity tail could be removed enzymatically by carboxypeptidase A. Furthermore, growth rate experiments demonstrated that the expression of the metal-binding affinity tail in E. coli cells enhanced the tolerance to zinc ions when added to the growth medium.
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PMID:Metal affinity precipitation of proteins carrying genetically attached polyhistidine affinity tails. 190 25

The "high-affinity Mn-binding site" in Mn-depleted photosystem II (PS II) membrane fragments isolated from Scenedesmus obliquus was examined by using the diphenylcarbazide (DPC)/Mn2+ non-competitive inhibition assay [Preston, C., & Seibert, M. (1991) Biochemistry (preceding paper in this issue)]. Different proteases were used to degrade lumenal surface protein segments from these PS II membranes, and a total of four independent high-affinity Mn-binding sites (ligands) were identified. Carboxypeptidase A, subtilisin, and Staphylococcus aureus V8 protease each degrade one of two high-affinity Mn-binding sites sensitive to the histidine chemical modifier diethyl pyrocarbonate (DEPC). However, sequential treatment experiments indicate that subtilisin degrades a DEPC-sensitive Mn-binding site that is different from the one degraded by the other two proteases. Trypsin also was found to degrade one of the DEPC-sensitive Mn-binding sites (that degraded by carboxypeptidase A and V8 protease). In addition, trypsin degrades one of two 1-ethyl-3-[(3-dimethylamino)propyl]carbodiimide (EDC) sensitive Mn-binding sites, but only in the absence of the 30-kDa extrinsic protein. Thus, the 30-kDa extrinsic protein associated with O2 evolution appears to protect the EDC-sensitive binding site from trypsin degradation. No protease has yet been identified that will degrade the trypsin-insensitive EDC-sensitive Mn-binding site. Under the conditions of the assay (high DPC concentration), more than three Mn per reaction center were found bound to the membrane with a KM of about 0.4 microM, as determined by direct metal analysis. This is consistent with the idea that each of the four high-affinity sites binds (or provides a ligand for) one of four Mn.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Protease treatments of photosystem II membrane fragments reveal that there are four separate high-affinity Mn-binding sites. 191 48

Histamine exerts profound effects on the cardiovascular system during shock mediated by H1 and H2 receptors. The source of histamine is uncertain. It is our hypothesis that carnosine serves as a nonmast-cell reservoir for histidine, utilized for histamine synthesis during shock. We have shown that treatment of older rats with compound 48/80, a mast cell degranulator, produces age-dependent lethal stress, which is prevented by lodoxamide (LOD), a mast cell degranulation inhibitor, is exacerbated by H2 receptor blockade, and is accompanied by increased mobilization of myocardial carnosine to histidine and histamine. This study was designed to evaluate the effects of H1 and H2 blockers on carnosine mobilization to histamine during 48/80-induced shock in young rats. Fifty male SD rats (125 g) were divided into nine groups: saline; LOD; H1 blocker diphenhydramine (DPH); H2 blocker cimetidine (CIM); 48/80; LOD + 48/80; DPH + 48/80; CIM + 48/80; and DPH + CIM + 48/80. All rats were sacrificed 30 min after final injections and hearts were analyzed via HPLC. There was a reduction in myocardial carnosine (P less than or equal to 0.01) and histidine (P less than or equal to 0.001) and a simultaneous increase in histamine (P less than or equal to 0.01, P less than or equal to 0.001) in animals receiving 48/80 or CIM + 48/80, respectively, compared to controls or groups pretreated with LOD, DPH, or DPH + CIM. These results indicate that 48/80-induced shock increases mobilization of myocardial carnosine and histidine to histamine, which supports a role for carnosine as a nonmast-cell histamine source.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effect of H1 and H2 receptor blockers on mobilization of myocardial carnosine to histamine during compound 48/80-induced shock in young rats. 196 87

A 24 year old man developed severe asthma two years after starting to work in a plywood plant. Four years later the patient had to stop working because of the increasing severity of his asthma. Three months after leaving his job, the patient's asthma was greatly improved. His job consisted of placing plywood sheets into a drying machine. The plywood sheets had stayed outside in wet conditions for at least four to six weeks and were usually covered with moulds. Drying the plywood sheets changed the mould into a fine orange powder. Exposure to this in the laboratory induced an isolated immediate asthmatic reaction. The same reaction was seen when the patient was challenged with an extract of the mould powder at a 0.1% w/v concentration. Skin prick test with the mould extract induced a weal and flare reaction and IgE antibodies against the dry mould powder were identified. A control patient with the same degree of bronchial hyperreactivity did not have any asthmatic reaction when challenged with the same mould extract. Culture of the dry mould powder on Sabouraud agar plates grew pure Neurospora sp. This mould has not been previously reported as a cause of occupational asthma. The immunological mechanism is probably related to an IgE mediated mast cell allergy.
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PMID:Occupational asthma caused by exposure to neurospora in a plywood factory worker. 202 96

Histamine is known to exert profound effects on the cardiovascular system in many mammals. Carnosine (beta-alanyl-L-histidine) is a dipeptide previously known to be present only in a few tissues. It is our hypothesis that carnosine serves as a non-mast cell reservoir for histidine, available for histamine synthesis during periods of physiologic stress. To validate this hypothesis, we demonstrated the existence of carnosine in multiple histamine-rich tissues in several mammalian species; documented a metabolic link between carnosine and histidine, histamine and 3-methylhistamine (a degradation product of histamine) in unstressed animals, and showed that tissue carnosine is decreased simultaneously with an increase in tissue histamine during stress.
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PMID:The presence and significance of carnosine in histamine-containing tissues of several mammalian species. 208 37

We have previously characterized dog mastocytoma cells propagated in nude mice. We have established two of these lines (C1 and C2) in continuous culture. Freshly disaggregated mastocytoma cells were cultured in Dulbecco's modified Eagle's medium (DME)-H16 mixed with 50% Ham's F12 and supplemented with histidine and 5% allergic dog serum (ADS). Cells were fed every 3 d and passaged weekly. Growth was assessed by cell count. Cell growth was best supported by culture in 5% ADS. C1 cells grow in suspension in ADS and have been passaged 55 times with a doubling time of 37.4 +/- 18.7 h (mean +/- 1 SD; n = 15). C2 cells adhere to tissue culture plastic in ADS and have been passaged 26 times with a doubling time of 49.3 +/- 12.5 h (n = 13). Morphologic and functional characteristics are unchanged from those described in cells propagated in nude mice. Histamine content for C1 is 0.46 +/- 0.18 pg/cell (n = 12) and 0.07 +/- 0.04 pg/cell (n = 6) for C2. Both lines contain the neutral protease tryptase and C2 contains chymase. Calcium ionophore A23187 or ragweed antigen caused concentration-dependent histamine release from both cell lines. C1 and C2 generate prostaglandin D2 in response to A23187. We conclude that dog mastocytoma cells can be established in continuous culture, thus providing a system for studying mast cell biology, including growth and development.
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PMID:Establishment of two dog mastocytoma cell lines in continuous culture. 212 Nov 70

Carcinine (beta-alanylhistamine) is an imidazole dipeptide that exists in mammalian hearts, increases cardiac contractility, and is metabolically linked to carnosine (beta-alanylhistidine), a non-mast cell histidine and histamine precursor during stress. We have previously shown that tissue carnosine levels are regulated by H1 and H2 receptors. This study evaluated the effects of H1, H2, and mast cell degranulation blockers on metabolism of carcinine and related imidazoles during shock induced by compound 48/80, a mast cell degranulator. Fifty 125-g male Sprague-Dawley rats were divided into nine ip treatment groups: saline, 48/80, lodoxamide (LOD, mast cell degranulation inhibitor), diphenhydramine (DPH, H1 antagonist), cimetidine (CIM, H2 antagonist), LOD + 48/80, CIM + 48/80, DPH + 48/80, or DPH + CIM + 48/80. Heart tissue was analyzed at 30 min by HPLC. 48/80 caused decreases in myocardial carnosine (P less than 0.01) and histidine (P less than 0.0001) levels and concomitant increases in carcinine (P less than 0.01), histamine (P less than 0.01), and 3-methylhistamine (P less than 0.05) compared to those of controls. These changes were inhibited by LOD or DPH. Treatment with CIM significantly increased myocardial carcinine levels compared to 48/80 alone (P less than 0.001) without an additional effect on the other compounds. These data indicate that carcinine is involved in the cardiac response to stress via the carnosine-histidine-histamine pathway. Compound 48/80-induced shock increases histamine metabolism via this pathway resulting in mobilization of myocardial carnosine and histidine to carcinine and histamine; this effect is increased by H2 receptor blockade.
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PMID:Effect of histamine antagonists on myocardial carcinine metabolism during compound 48/80-induced shock. 221 37

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