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Query: UNIPROT:P15088 (
mast cell
)
14,925
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A phosphonamide peptide, N-(phenylethylphosphonyl)-Gly-L-Pro-L-aminohexanoic acid, previously shown to block Clostridium histolyticum collagenases, was examined as a putative inhibitor of endopeptidase 24.16 and endopeptidase 24.15. Hydrolysis of two endopeptidase 24.16 substrates, i.e. 3-carboxy-7-methoxycoumarin (Mcc)-Pro-Leu-Gly-Pro-D-Lys-dinitrophenyl (Dnp) and neurotensin, were completely and dose-dependently inhibited by the phosphonamide inhibitor with KI values of 0.3 and 0.9 nM respectively. In addition, the phosphonamide peptide inhibited the hydrolysis of benzoyl (Bz)-Gly-
Ala
-
Ala
-Phe-(pAB) p-aminobenzoate and neurotensin by endopeptidase 24.15 with about a 10-fold lower potency (KI values of 5 and 7.5 nM respectively). The selectivity of this inhibitor towards several exo- and endo-peptidases belonging to the zinc-containing metallopeptidase family established that a 1 microM concentration of this inhibitor was unable to affect leucine aminopeptidase,
carboxypeptidase A
, angiotensin-converting enzyme and endopeptidase 24.11. The present paper therefore reports on the first hydrophilic highly potent endopeptidase 24.16 inhibitor and describes the most potent inhibitory agent directed towards endopeptidase 24.15 developed to date. These tools should allow one to assess the contribution of endopeptidase 24.16 and endopeptidase 24.15 to the physiological inactivation of neurotensin as well as other neuropeptides.
...
PMID:Potent inhibition of endopeptidase 24.16 and endopeptidase 24.15 by the phosphonamide peptide N-(phenylethylphosphonyl)-Gly-L-Pro-L-aminohexanoic acid. 133 78
Melanin-concentrating hormone (MCH) is a cyclic peptide which behaves as an antagonist of the pituitary melanotropic hormone alpha-melanocyte-stimulating hormone in fishes. Cloning of the rat MCH cDNA precursor recently revealed the presence of an additional putative peptide named NEI. The present work examined the susceptibility of these novel peptides to hydrolysis by various purified exo- and endo-peptidases including endopeptidases 24.11 (NEP), 24.15, 24.16, angiotensin-converting enzyme, leucine aminopeptidase and
carboxypeptidase A
. NEP attacked MCH at three sites of the molecule with an apparent affinity of about 12 microM and a kcat. of 4 min-1. The first site of cleavage was at Cys-7-Met-8, i.e. within the peptide loop formed by the internal disulphide bridge. NEP could therefore be considered as an MCH-inactivating peptidase since the degradation products generated are probably devoid of biological activity. In contrast, NEI neither inhibited the degradation of the NEP chromogenic substrate glutaryl-Phe-
Ala
-Phe-p-aminobenzoate nor was susceptible to proteolysis by NEP. Unlike NEP, angiotensin-converting enzyme, endopeptidase 24.15 and endopeptidase 24.16 appeared totally unable to cleave MCH, whereas the peptide was readily degraded by aminopeptidase M and
carboxypeptidase A
.
...
PMID:Hydrolysis of rat melanin-concentrating hormone by endopeptidase 24.11 (neutral endopeptidase). 152 Feb 71
The molecular structures of three phosphorus-based peptide inhibitors of aspartyl proteinases complexed with penicillopepsin [1, Iva-L-Val-L-Val-StaPOEt [Iva = isovaleryl, StaP = the phosphinic acid analogue of statine [(S)-4-amino-(S)-3-hydroxy-6-methylheptanoic acid] (IvaVVStaPOEt)]; 2, Iva-L-Val-L-Val-L-LeuP-(O)Phe-OMe [LeuP = the phosphinic acid analogue of L-leucine; (O)Phe = L-3-phenyllactic acid; OMe = methyl ester] [Iva VVLP(O)FOMe]; and 3, Cbz-L-
Ala
-L-
Ala
-L-LeuP-(O)-Phe-OMe (Cbz = benzyloxycarbonyl) [CbzAALP(O)FOMe]] have been determined by X-ray crystallography and refined to crystallographic agreement factors, R ( = sigma parallel to F0 magnitude of - Fc parallel to/sigma magnitude of F0), of 0.132, 0.131, and 0.134, respectively. These inhibitors were designed to be structural mimics of the tetrahederal transition-state intermediate encountered during aspartic proteinase catalysis. They are potent inhibitors of penicillopepsin with Ki values of 1, 22 nM; 2, 2.8 nM; and 3, 1600 nM, respectively [Bartlett, P. A., Hanson, J. E., & Giannousis, P. P. (1990) J. Org. Chem. 55, 6268-6274]. All three of these phosphorus-based inhibitors bind virtually identically in the active site of penicillopepsin in a manner that closely approximates that expected for the transition state [James, M. N. G., Sielecki, A.R., Hayakawa, K., & Gelb, M. H. (1992) Biochemistry 31, 3872-3886]. The pro-S oxygen atom of the two phosphonate inhibitors and of the phosphinate group of the StaP inhibitor make very short contact distances (approximately 2.4 A) to the carboxyl oxygen atom, O delta 1, of Asp33 on penicillopepsin. We have interpreted this distance and the stereochemical environment of the carboxyl and phosphonate groups in terms of a hydrogen bond that most probably has a symmetric single-well potential energy function. The pro-R oxygen atom is the recipient of a hydrogen bond from the carboxyl group of Asp213. Thus, we are able to assign a neutral status to Asp213 and a partially negatively charged status to Asp33 with reasonable confidence. Similar very short hydrogen bonds involving the active site glutamic acid residues of thermolysin and
carboxypeptidase A
and the pro-R oxygen of bound phosphonate inhibitors have been reported [Holden, H. M., Tronrud, D. E., Monzingo, A. F., Weaver, L. H., & Matthews, B. W. (1987) Biochemistry 26, 8542-8553; Kim, H., & Lipscomb, W. N. (1991) Biochemistry 30, 8171-8180].(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:Crystallographic analysis of transition-state mimics bound to penicillopepsin: phosphorus-containing peptide analogues. 160 44
We functionally characterized human skin
mast cell carboxypeptidase A
(
MC-CPA
), and explored its evolutionary relationship to other carboxypeptidases to understand further the structural basis for the substrate preferences of this enzyme. Purified human skin
MC-CPA
displayed more activity than did bovine pancreatic carboxypeptidase A (
CPA
) against carboxyl-terminal leucine residues, about equal activity with phenylalanine and tyrosine residues, and no activity with tryptophan or
alanine
. To correlate kinetic data with structure, we isolated and sequenced a cDNA encoding
MC-CPA
from human skin, and directly sequenced 30% of the purified protein. These sequences agreed with that of human lung
MC-CPA
, and further support the evidence for a single
MC-CPA
gene in humans. Four amino acid replacements, resulting in a net positive change in non-hydrogen atoms in the S1' subsite of
MC-CPA
, were associated with less alteration in substrate specificity, relative to bovine
CPA
, than might be expected from studies using rat CPA1 and CPA2. We noted two consensus N-linked glycosylation sites in human
MC-CPA
that are not found in rat and mouse
MC-CPA
, or in bovine
CPA
; that at least one of these sites is glycosylated in vivo was verified by N-glycosidase F treatment, lentil lectin binding, and Concanavalin A-Sepharose chromatography. Evolutionary trees constructed from the known carboxypeptidase sequences suggested that
MC-CPA
most likely evolved from a carboxypeptidase B-like enzyme, independent of the pancreatic
CPA
. Thus, in the carboxypeptidase gene family,
MC-CPA
displays a unique genealogy and several amino acid replacements in its S1' binding pocket that result in substrate specificity quite similar to bovine
CPA
.
...
PMID:Human skin mast cell carboxypeptidase: functional characterization, cDNA cloning, and genealogy. 162 26
Carboxypeptidase E is a member of the
carboxypeptidase A
and B gene family, with many of the putative active-site and substrate-binding residues conserved between these enzymes. However, the pH optimum of carboxypeptidase E is substantially lower than that of carboxypeptidases A and B. To evaluate whether the difference in the pH optima of these carboxypeptidases reflects fundamental differences in the ionization behaviour of active-site residues, the influence of pH on carboxypeptidase E activity was examined. The V(max) for hydrolysis of dansyl-Phe-
Ala
-Arg is pH-independent between 5 and 7, but decreases at pH values below 5. The pKa for the group the protonation of which leads to the loss of activity is approximately 4.8, and the slope of the V(max.)/pH profile suggests that only a single ionizable group is involved. In contrast, Km and V(max.)/Km are dramatically influenced by pH over the range 5-7, with multiple ionizable groups detected in this pH range. The pKa of the group the protonation of which decreases the V(max.) of substrate hydrolysis is lower (4.5) for carboxypeptidase E which had been reconstituted with Co2+. The enthalpy of ionization of the group observed in the V(max.) profile for carboxypeptidase E is approx. 28.9 kJ/mol. These results are compatible with the active-site model of the homologous
carboxypeptidase A
: in this model the ionization of a metal-bound water molecule is responsible for the observed decrease in V(max.).
...
PMID:Regulation of carboxypeptidase E. Effect of pH, temperature and Co2+ on kinetic parameters of substrate hydrolysis. 163 50
Limited proteolysis of
carboxypeptidase A
from bovine pancreas with subtilisin Carlsberg generates a stable intermediate, carboxypeptidase S, whose esterase and peptidase activities are increased and decreased, respectively, under standard assay conditions. Carboxypeptidase S was isolated by affinity chromatography. Sequence analysis shows that it is cleaved solely at the Ala154-Gly155 bond. Its enzymatic properties were determined under stopped-flow conditions with Dns-Gly-
Ala
-Phe and its ester analogue Dns-Gly-
Ala
-OPhe. For both substrates, the Km values are increased 30-40-fold. The kcat value for peptide hydrolysis is virtually unaffected whereas that for ester hydrolysis is increased 10-fold. The magnitude of the Km effect is equivalent to a loss of 9 kJ/mol of binding energy and likely reflects a disruption of the network of hydrogen bonds that links Tyr-248 and Arg-145 to the backbone carbonyls of
Ala
-154 and Gly-155. The difference in kcat effects for the two substrate classes is related to differences in the chemical nature of the rate-determining step. Product release is rate determining for catalytic hydrolysis of ester substrates, and hence, the increase in kcat indicates that dissociation of products is facilitated as a result of the Ala154-Gly155 bond scission. The changes in enzymatic activity accompanying limited proteolysis are due to conformational alterations in the vicinity of the active center of the molecule. The affinity of a monoclonal antibody, mAb 100, directed toward the antigenic determinant located between residues 209 and 218 in
carboxypeptidase A
is diminished considerably for carboxypeptidase S.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Catalytic and conformational changes induced by limited subtilisin cleavage of bovine carboxypeptidase A. 169 55
The structure of rat carboxypeptidase A2 (CPA2), which has a unique specificity for tryptophan-containing COOH-terminal peptides, has been determined in an unliganded state at 1.9-A resolution and refined to a crystallographic R-factor of 18.3%. Comparison of the structure of CPA2 with that of bovine
carboxypeptidase A
(referred to here as CPA1) reveals that the specificity of the former for larger amino acids probably arises from two amino acid replacements within the binding cavity (Thr268----
Ala
and Leu203----Met), coupled with differences in the positions of conserved residues in a surface loop on one face of the specificity pocket. The position of the reactive-site surface loop may be affected also by a disulfide bridge between Cys210 and Cys244. In this unliganded form of the enzyme, Tyr248 takes up a position interior to the specificity pocket and is distinct from that observed in bovine CPA1. The structural differences between CPA1 and CPA2 correlate strongly with crystallographically determined temperature factors and thus appear to be largest where the enzyme is flexible.
...
PMID:Structural evolution of an enzyme specificity. The structure of rat carboxypeptidase A2 at 1.9-A resolution. 176 58
Comparative studies among a series of tripeptide phosphonate inhibitors of the zinc peptidase
carboxypeptidase A
indicate that incorporation of the phosphonic acid analogue of valine at the P1 position results in significantly higher affinity than the glycine,
alanine
, or phenylalanine analogues. When applied to the tripeptide analogue Cbz-Phe-ValP-(O)Phe [ZFVP(O)F], determination of the inhibition constant Ki was complicated by the very slow rate of dissociation. The rate of exchange of [3H]ZFVP(O)F with enzyme-bound [14C]ZFVP(O)F was followed for periods of 3-4 months to measure dissociation rate constants in the range of (1.7-4.4) x 10(-9) s-1, corresponding to half-lives of 5-13 years. Although the on- and off-rate constants differ for different carboxypeptidase isozymes, their ratios, corresponding to the inhibition constants Ki, are consistently in the range of 10-27 fM. Both the inhibition constants and the dissociation rate constants appear to be the lowest values yet determined for an enzyme-small inhibitor interaction.
...
PMID:Synthesis and evaluation of an inhibitor of carboxypeptidase A with a Ki value in the femtomolar range. 186 91
The structures of the complexes of
carboxypeptidase A
(
CPA
) with two tight-binding phosphonate inhibitors have been determined by X-ray crystallography. The inhibitors, Cbz-Phe-ValP-(O)-Phe[ZFVP(O)F] and Cbz-
Ala
-GlyP-(O)-Phe[ZAGP(O)F], bind noncovalently to
CPA
with dissociation constants (Ki's) of 11 fM and 710 pM, respectively. The
CPA
-ZFVP(O)F complex crystallizes in the space group P2(1)2(1)2(1) with unit cell parameters a = 65.3 A, b = 63.4 A, and c = 76.0 A, and the
CPA
-ZAGP(O)F complex crystallizes in the space group P2(1)2(1)2(1) with unit cell parameters a = 63.4 A, b = 65.9 A, and c = 74.4 A. Both structures were determined by molecular replacement to a resolution of 2.0 A. The final crystallographic residuals are 0.189 for the
CPA
-ZFVP(O)F complex and 0.191 for the
CPA
-ZAGP(O)F complex. The
CPA
-ZFVP(O)F complex exhibits the lowest Ki yet determined for an enzyme-inhibitor interaction. Comparison of the
CPA
-ZFVP(O)F structure with that of the
CPA
-ZAAP(O)F complex [Kim, H., & Lipscomb, W.N. (1990) Biochemistry 29, 5546-5555] indicates the likely important contributions of hydrophobic and weakly polar enzyme-inhibitor interactions to the exceptional stability of the
CPA
-ZFVP(O)F complex. Among these interactions is a network of four aromatic rings of
CPA
and ZFVP(O)F in a configuration that allows stabilizing aromatic-aromatic edge-to-face interactions from one ring to the next. A comparison of the structures of the
CPA
-ZFVP(O)F,
CPA
-ZAAP(O)F and
CPA
-ZAGP(O)F complexes shows that all three phosphonates assume a similar binding mode in the active-site binding groove of
CPA
. For ZAGP(O)F, the glycyl P1 residue does not lead to an anomalous or a partially disordered binding mode as seen in some previous complexes of
CPA
involving dipeptide analogue inhibitors with glycyl P1 residues. The additional enzyme-inhibitor interactions for these tripeptide phosphonates secure a binding mode in which a Pi portion of the inhibitor is clearly bound by the corresponding Si binding subsite. These three phosphonates have been implicated as transition-state analogues of the
CPA
-catalyzed reaction. The phosphinyl groups of these phosphonates coordinate to the active-site zinc in a manner that has been proposed as a characteristic feature of the general-base (Zn-hydroxyl or Zn-water) mechanism for the
CPA
-catalyzed reaction. Further mechanistic proposals are made for Arg-127, whose probable role in binding substrates is apparent in these
CPA
-phosphonate complexes.
...
PMID:Comparison of the structures of three carboxypeptidase A-phosphonate complexes determined by X-ray crystallography. 186 92
The specificity of metal ion inhibition of bovine
carboxypeptidase A
([(CPD)Zn]) catalysis is examined under stopped-flow conditions with use of the fluorescent peptide substrate Dns-Gly-
Ala
-Phe. The enzyme is inhibited competitively by Zn(II), Pb(II), and Cd(II) with apparent KI values of 2.4 x 10(-5), 4.8 x 10(-5), and 1.1 x 10(-2) M in 0.5 M NaCl at pH 7.5 and 25 degrees C. The kcat/Km value, 7.3 x 10(6) M-1 s-1, is affected less than 10% at 1 x 10(-4) M Mn(II) or Cu(II) and at 1 x 10(-2) M Co(II), Ni(II), Hg(II), or Pt(IV). Zn(II) and Pb(II) are mutually exclusive inhibitors. Previous studies of the pH dependence of Zn(II) inhibition [Larsen, K. S., & Auld, D. S. (1989) Biochemistry 28, 9620] indicated that [(CPD)Zn] is selectively inhibited by a zinc monohydroxide complex, ZnOH+, and that ionization of a ligand, LH, in the enzyme's inhibitory site (pKLH 5.8) is obligatory for its binding. The present study allows further definition of this inhibitory zinc site. The ionizable ligand (LH) is assigned to Glu-270, since specific chemical modification of this residue decreases the binding affinity of [(CPD)Zn] for Zn(II) and Pb(II) by more than 60- and 200-fold, respectively. A bridging interaction between the Glu-270-coordinated metal hydroxide and the catalytic metal ion is implicated from the ability of Zn(II) and Pb(II) to induce a perturbation in the electronic absorption spectrum of cobalt
carboxypeptidase A
([(CPD)Co]).(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Characterization of an inhibitory metal binding site in carboxypeptidase A. 200 51
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