Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
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Target Concepts:
Gene/Protein
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Enzyme
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Query: EC:2.7.10.1 (
ERK
)
95,504
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
In order to clarify the significance of
NEP
in human renal kallikrein-kinin system, an assay system was developed for the simultaneous determination of
kininase I
, II and
NEP
activities in human. Each kininase activity was determined by measuring the hydrolysis of bradykinin in the presence of specific inhibitors of
kininase I
(2-mercaptomethyl-3-guanidinoethylthiopropanoic acid), kininase II (captopril) and
NEP
(phosphoramidon) in 8 normal subjects. The effects of the different assay buffers on kininase activities were also investigated by using a phosphate buffer. Total kininase,
kininase I
, II and
NEP
activities were 499 +/- 65 ng/min/ml (mean +/- S.E.), 55 +/- 8, 141 +/- 21 and 299 +/- 42, respectively in our method using a tris buffer, while a phosphate buffer brought about activities of 358 +/- 43, 45 +/- 5, 156 +/- 21 and 135 +/- 25 ng/min/ml. The relative contributions of
kininase I
, II and
NEP
to total kininase activity were 11, 29 and 59% in our assay system, while they were 13, 44 and 35% when a phosphate buffer was used. From these results it was suggested that 1) phosphate may inhibit urinary
NEP
activity, so that a tris buffer should be used as the incubation buffer, 2)
NEP
is the major component of human urinary kininases, and 3)
NEP
may play an important role in the renal kallikrein-kinin system.
...
PMID:A sensitive method for differential determination of kininase I, II and neutral endopeptidase (NEP) in human urine. 255 8
The relative contributions of three kininases to total urinary kininase activity were determined by measuring the hydrolysis of kinins in the presence and absence of inhibitors of
kininase I
(2-mercaptomethyl-3-guanidinoethylthiopropanoic acid; MGTA), kininase II (captopril) and neutral endopeptidase 24.11 (
NEP
or enkephalinase A; phosphoramidon). Surprisingly,
NEP
was responsible for 68 +/- 2% (N = 18) of the total kininase in the rat while
kininase I
and II contributed only 9 +/- 0.4% and 23 +/- 1%, respectively. To study the effects of
NEP
inhibition on renal function, phosphoramidon (110 or 330 micrograms/hr/kg; N = 6) or saline (0.1 microliter/min; N = 6) was infused into rats. Urinary kinins, kininases, renal blood flow (RBF), glomerular filtration rate (GFR), UNaV, UKV and UV were measured during control, experimental and recovery periods. Phosphoramidon at the higher dose decreased total urinary kininase activity from 284 +/- 49 to 58 +/- 5 ng/min/kg (77%, P less than 0.01), and increased kinin excretion from 74 +/- 9 to 128 +/- 21 pg/min/kg (73%, P less than 0.02), UV from 72 +/- 10 to 82 +/- 10 microliters/min/kg (15%, P less than 0.01) and UNaV from 12 +/- 2 to 17 +/- 3 microEq/min/kg (37%, P less than 0.02), while BP, RBF, GFR and UKV did not change. 125I-Tyr0-bradykinin infused into the aorta did not appear in the urine intact during simultaneous phosphoramidon and captopril administration. This is the first demonstration of
NEP
having a major role in the catabolism of kinins. The increase in UNaV and UV after phosphoramidon administration may be due to the inhibition of intrarenal kinin destruction.
...
PMID:Role of renal endopeptidase 24.11 in kinin metabolism in vitro and in vivo. 282 46
Respiratory epithelial cell surface neutral endopeptidase 24.11 (
NEP
-24.11) degrades proinflammatory peptides, and it has been suggested that glucocorticoids may reduce airway inflammation, in part, by upregulation of
NEP
-24.11. Despite the potential importance of the epithelium as a metabolic barrier, little is known regarding what other peptidases may be present on the epithelial cell surface. Using an immortalized bronchial epithelial cell line (BEAS-2B), we have shown that human epithelial cells express no detectable angiotensin-converting enzyme,
carboxypeptidase N
, or dipeptidyl(amino)peptidase IV, but express significant levels of aminopeptidase M (AmM), as well as
NEP
-24.11. The presence of these enzymes was demonstrated via their degradation of biologically active peptides and by flow cytometry. Exposure of cells to the glucocorticoid budesonide (10(-7) M) for up to 5 days did not markedly alter the expression of
NEP
-24.11 or AmM, as assessed by flow cytometry, nor did glucocorticoid treatment modify rates of peptide hydrolysis by
NEP
-24.11 or AmM. Thus, BEAS-2B cells have both AmM and
NEP
-24.11 on their surface, and expression of these enzymes is not altered by glucocorticoids.
...
PMID:Glucocorticoids do not alter peptidase expression on a human bronchial epithelial cell line. 751 43
The degradation of bradykinin in semen and on washed sperm cells of various species (human, pig, cattle, sheep) is mainly controlled by two peptidases, the angiotensin-converting enzyme (ACE/kininase II; E.C. 3.4.15.1) and neutral metalloendopeptidase (
NEP
; E.C. 3.4.24.11). In addition, minor activities of
kininase I
(
carboxypeptidase N
/
CPN
; E.C. 3.4.17.3) were measured exclusively in human samples. Samples of the investigated species varied considerably in their ratios of the activities of bradykinin degrading peptidases. This should be considered in any approach aimed at maintaining the promoting effect of bradykinin on sperm motility by use of enzyme inhibitors.
...
PMID:The enzymatic degradation of bradykinin in semen of various species. 782 45
Neutral endopeptidase (
NEP
, EC 3.4.24.11), angiotensin-converting enzyme (ACE, EC 3.4.15.1) and
carboxypeptidase N
(
CPN
,
EC 3.4.17.3
) are potentially important enzymes which regulate the degradation of neuropeptides, such as bradykinin (BK) and substance P (SP), in the respiratory mucosa. Some neuropeptides are also degraded by these enzymes in vitro and in vivo. We investigated the localization of these enzymes in the human nasal mucosa by an indirect immunohistochemical technique (immunogold silver staining).
NEP
-immunoreactive areas were present in the epithelium, the serous cells of the submucosal glands, and the endothelial cells of small vessels. The epithelium and the serous cells were the predominant areas of
NEP
immunoreactivity in the nasal mucosa. ACE-immunoreactive areas were seen in the outer layer of the epithelium, the endothelial cells of vessels, and widely distributed in the superficial lamina propria. The endothelial cells of the vessels showed maximum positive intensity to ACE.
CPN
-immunoreactive areas were observed in the epithelium, the endothelium of vessels and the superficial lamina propria, except for the gland cells. The superficial lamina propria exhibited maximum immunoreactivity for
CPN
. We observed that the enzymes were widely distributed in the nasal mucosa. The epithelium, including the epithelial cells and glycocalyx, contains all three enzymes. These enzymes play an important role in the mucosal immunity of the respiratory mucosa by degrading active neuropeptides. These results show that
NEP
secretion is regulated by a glandular, cholinergic control. On the other hand, ACE and
CPN
secretion are regulated by vascular permeability.
...
PMID:Immunological localization of neuropeptide-degrading enzymes in the nasal mucosa. 783 83
The pattern of bradykinin (BK; Arg1-Pro2-Pro3-Gly4-Phe5-Ser6-Pro7-Phe8-Arg9)-inact iva ting peptidases in semen of boar and ram was investigated. The degradation of BK in semen was completely abolished by the metalloprotease inhibitors EDTA and o-phenanthroline. Inhibitors of angiotensin-converting enzyme (ACE; EC 3.4.15.1) and phosphoramidon, an inhibitor of neutral metalloendopeptidase (
NEP
; EC 3.4.24.11), were only partially effective in preventing BK degradation in semen. An additive effect was seen with simultaneous inhibition of both enzymes, resulting in complete abolition of BK degradation. HPLC analysis demonstrated that exogenous BK in semen is cleaved at Gly4-Phe5, Phe5-Ser6 and Pro7-Phe8. These results indicate that
NEP
and ACE are the main peptidases responsible for rapid BK inactivation in semen. The involvement of other peptidases known to be responsible for BK cleavage in other tissues and body fluids, namely
carboxypeptidase N
(EC 3.4.12.7), post proline cleaving enzyme (EC 3.4.21.26) and aminopeptidase P (EC 3.4.11.9) was excluded.
NEP
and ACE were shown to be localized mainly in seminal plasma and to a lesser extent on sperm cells.
...
PMID:Degradation of bradykinin in semen of ram and boar. 839 Feb 57
Our investigations started when synthetic bradykinin became available and we could characterize two enzymes that cleaved it:
kininase I
or plasma
carboxypeptidase N
and kininase II, a peptidyl dipeptide hydrolase that we later found to be identical with the angiotensin I converting enzyme (ACE). When we noticed that ACE can cleave peptides without a free C-terminal carboxyl group (e.g., with a C-terminal nitrobenzylamine), we investigated inactivation of substance P, which has a C-terminal Met(11)-NH(2). The studies were extended to the hydrolysis of the neuropeptide, neurotensin and to compare hydrolysis of the same peptides by neprilysin (neutral endopeptidase 24.11, CD10,
NEP
). Our publication in 1984 dealt with ACE and
NEP
purified to homogeneity from human kidney.
NEP
cleaved substance P (SP) at Gln(6)-Phe(7), Phe(7)[see text]-Phe(8), and Gly(9)-Leu(10) and neurotensin (NT) at Pro(10)-Tyr(11) and Tyr(11)-Ile(12). Purified ACE also rapidly inactivated SP as measured in bioassay. HPLC analysis showed that ACE cleaved SP at Phe(8)-Gly(9) and Gly(9)-Leu(10) to release C-terminal tri- and dipeptide (ratio = 4:1). The hydrolysis was Cl(-) dependent and inhibited by captopril. ACE released only dipeptide from SP free acid. ACE hydrolyzed NT at Tyr(11)-Ile(12) to release Ile(12)-Leu(13). Then peptide substrates were used to inhibit ACE hydrolyzing Fa-Phe-Gly-Gly and
NEP
cleaving Leu(5)-enkephalin. The K(i) values in microM were as follows: for ACE, bradykinin = 0.4, angiotensin I = 4, SP = 25, SP free acid = 2, NT = 14, and Met(5)-enkephalin = 450, and for
NEP
, bradykinin = 162, angiotensin I = 36, SP = 190, NT = 39, Met(5)-enkephalin = 22. These studies showed that ACE and
NEP
, two enzymes widely distributed in the body, are involved in the metabolism of SP and NT. Below we briefly survey how
NEP
and ACE in two decades have gained the reputation as very important factors in health and disease. This is due to the discovery of more endogenous substrates of the enzymes and to the very broad and beneficial therapeutic applications of ACE inhibitors.
...
PMID:Angiotensin converting enzyme (ACE) and neprilysin hydrolyze neuropeptides: a brief history, the beginning and follow-ups to early studies. 1513 71
