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
Query: EC:3.4.24.27 (
thermolysin
)
1,894
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
1. Phosphoramidon, a potent inhibitor of endopeptidase-24.11 (E-24.11) and
thermolysin
, has been shown to reduce the hypertensive effect of exogenous big
endothelin-1
(big
ET-1
) in rats. To examine whether E-24.11 or
thermolysin
convert big
ET-1
to
endothelin-1
(
ET-1
) and C-terminal fragment (CTF), the effects on porcine and human big
ET-1
of each of the purified enzymes were compared in vitro. 2. For E-24.11, the relative rates of hydrolysis were
ET-1
> CTF >> big
ET-1
. The relative half-lives for hydrolysis of 3 nmol of each peptide by 200 ng enzyme were: big
ET-1
> 24 h;
ET-1
, 37 min; CTF, 57 min. For comparison, the half-life for hydrolysis of substance P under similar conditions was 2.1 min. 3. For
thermolysin
the relative rates of hydrolysis were found to be big
ET-1
> CTF >
ET-1
. The relative half-lives for hydrolysis of 3 nmol peptide by 50 ng enzyme were: big
ET-1
, 25 min;
ET-1
, 56 min; CTF, 47 min. 4. Because the low rate of conversion of big
ET-1
to
ET-1
by E-24.11 did not yield sufficient
ET-1
for h.p.l.c. quantification a RIA specific for
ET-1
(16-21) was used to study further the hydrolysis of big
ET-1
by E-24.11. Incubation of big
ET-1
(0.2-2 nmol) with E-24.11 (4-400 ng) generated
ET-1
levels of between 1.7 and 33 pmol measured by RIA. Incubation of big
ET-1
(2 nmol) with E-24.11 (40 ng) for 8 h showed that steady state levels of
ET-1
were achieved after 4 h indicating that the rate of
ET-1
degradation was then equal to the formation of new
ET-1
. Characterization of the immunoreactivity by h.p.l.c. and RIA confirmed that authentic
ET-1
had been produced, but the yield was insufficient for verification by mass spectrometry.5. Both ET-l-like and CTF-like peaks were detected at 214 nm when the products of big
ET-1
hydrolysis by
thermolysin
were resolved by h.p.l.c. RIA and mass spectrometry confirmed the production of
ET-1
with amounts in the range 120-160 pmol.6. The hydrolysis profile of
ET-1
by E-24.11 and
thermolysin
shows that both enzymes have some common cleavage sites consistent with their similar specificities hydrolysing on the amino side of a hydrophobic residue.7. Thermolysin, for which 3D structural information is available, may represent a better model for endothelin converting enzyme (ECE) action than E-24.11 and could be useful for the design of ECE inhibitors. Since E-24.11 can both synthesize and hydrolyse
ET-1
, the presence of E-24.11 in membrane fractions or in partially purified ECE preparations may produce misleading estimates of ECE activity.
...
PMID:Generation by the phosphoramidon-sensitive peptidases, endopeptidase-24.11 and thermolysin, of endothelin-1 and c-terminal fragment from big endothelin-1. 752 8
We have employed both protein chemical and molecular biological approaches to determine the ligand binding domain of the endothelin-B subtype (ETB) receptor. The human ETB receptor purified from human placenta by using affinity chromatography was cross-linked with 125I-labeled
endothelin-1
(
ET-1
) and then incubated in the presence of trypsin or
thermolysin
under nondenaturing conditions. The N-terminal amino acid sequence of the radiolabeled polypeptide encompassed approximately 115 amino acid residues starting from Ile85 of the human ETB receptor. This was confirmed by experiments in which the binding activity of
endothelin-1
to various chimeric endothelin receptors was monitored in the presence and absence of competitive endothelin receptor antagonists such as BQ-123 and bosentan. The region from Ile138 to Ile197 (60 amino acid residues) of the ETB receptor was found to interact with both antagonists. Therefore, this sequence was determined to be the ligand binding domain. In addition, we found that part of the N-terminal domain in close proximity to the first transmembrane region was required for the ligand binding activity of the ETB receptor, and the 12 amino acid residues from Ser390 to Leu401 at the proximal cytoplasmic tail are perhaps necessary to maintain the ligand binding site in active form. The cysteine rich region from residue 400 to residue 403 in the C-terminus of the ETB receptor is involved in coupling of the guanine nucleotide-binding regulatory protein for
ET-1
-induced signal transduction.
...
PMID:Ligand binding domain of the human endothelin-B subtype receptor. 766 55
The extracellular metalloendopeptidase (EC 3.4.24.30; coccolysin) from Enterococcus faecalis (Strain OG1-10) inactivates human
endothelin-1
by hydrolyzing the peptide primarily at the Ser5-Leu6 and the His16-Leu17 bonds and the human big endothelin at several bonds involving hydrophobic amino acid residues. The big endothelin fragment 22-38 was also hydrolyzed at a high rate. The degradation of endothelin by coccolysin resembles the peptidolytic processing of endothelin by
thermolysin
. Because E. faecalis is associated with a large number of infectious diseases, it is possible that the manifestation of inflammatory conditions in the presence of this organism is related to the coccolysin-catalyzed inactivation of endothelin.
...
PMID:The Enterococcus faecalis extracellular metalloendopeptidase (EC 3.4.24.30; coccolysin) inactivates human endothelin at bonds involving hydrophobic amino acid residues. 817 36
Endothelin-converting enzyme-1 (ECE-1) is a membrane-bound zinc metallopeptidase that is homologous to neprilysin in amino acid sequence. A major in vivo function of ECE-1 is the generation of
endothelin-1
, a potent vasoconstrictor, from big
endothelin-1
. ECE-1 is also potentially involved in the processing or degradation of other peptide hormones. In this study we have used substrates based on the sequence of the COOH-terminal half of big
endothelin-1
to examine the subsite specificity of recombinant ECE-1. The big
endothelin-1
[16-38] peptides were systematically varied at either position 21 (P(1)) or position 22 (P'(1)) and used in steady-state kinetic analyses of ECE-1. The results indicate that the S(1) pocket of ECE-1 is relatively nonselective, but that the S'(1) subsite of ECE-1 has a preference for large hydrophobic side chains. The peptidyl carboxydipeptidase activity of ECE-1 was also characterized, revealing that substrates with COOH-terminal carboxylates are highly preferred over the cognate amides and esters. A site-directed mutagenesis study was carried out to identify the active-site amino acid residues specifically involved in binding to the COOH-terminal carboxylate of substrates. The data indicate that Arg(133) of ECE-1, which corresponds to Arg(102) of neprilysin that has been identified as an active-site residue of neprilysin involved in binding to the free carboxylate of some substrate peptides, may not play the same role. However, the low activity observed for an ECE-1 Arg(726) mutant is consistent with a role for this arginine residue in the binding of substrates, a role which has been ascribed to arginine residues in both
thermolysin
(Arg(203)) and neprilysin (Arg(717)).
...
PMID:Mapping the active site of endothelin-converting enzyme-1 through subsite specificity and mutagenesis studies: a comparison with neprilysin. 1183 55
