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Query: EC:3.4.23.15 (
renin
)
35,795
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
1. Activation of inactive
renin
in rat plasma has been studied with different trypsin concentrations and incubation times at pH 6.2 and 4 degrees C. 2.
Trypsin
concentrations below 2 mg/ml, lower than endogenous rat plasma anti-trypsin activity, do not activate inactive
renin
, whereas maximal activation is obtained with trypsin at 6 mg/ml for 1 min at 4 degrees C, pH 6.2. 3. Under these conditions trypsin can cleave dialysable fragments from
renin
substrate. ANG I can be generated at 37 degrees C with a pH optimum of 5.3. Nevertheless, the ANG I formation at pH 6.2 was totally unaffected. 4. Incubations longer than 2 min with trypsin at 6 mg/ml can induce a direct cleavage of dialysable ANG I-containing fragments strongly interfering with the measurements of
renin
activity at pH 6.2. 5. On average 40% of the total
renin
measured in plasma of normotensive WK rats is in the inactive form, although a wide range of variation is observed.
...
PMID:Trypsin-activatable inactive renin in rat plasma. 633 9
Trypsin
-activated
renin
(inactive
renin
) was detected in the break-through fraction when dog plasma or
renin
extracted from
renin
granules (stored
renin
) was applied to a pepstatin column, respectively. The appearance of the
renin
activity by trypsin treatment was not due to acid protease. Production of angiotensin I from homologous
renin
substrate by the trypsin-activated
renin
was proportional to the time of incubation. The trypsin-activated
renin
had an affinity for the pepstatin column. The maximum amount of trypsin-activated
renin
was obtained with incubation for 15 min at 37 degrees C at 1000 micrograms/ml in plasma or at 100 micrograms/ml in case of stored
renin
. The ratio of inactive to active
renin
was calculated to be 1.6 or 0.002 in plasma or stored
renin
, respectively, under conditions of a standard sodium diet.
...
PMID:The existence of inactive (trypsin-activated) renin in dog plasma and renin granules from the kidney. 634 66
The aim of this work was to investigate the presence of inactive
renin
(IR) in plasma of normal infants and children and nephrectomized children and to study the plasma IR response to stimulation of the
renin
-angiotensin system (orthostasis) in children. The study was performed in 10 normal infants (2 days to 1 yr old), 28 normal children (1-15 yr old), 8 nephrectomized children (8-14 yr old), and 7 normal adults (20-40 yr old). IR was calculated as the difference in
renin
activity in trypsin-treated (1500 micrograms/ml) plasma, e.g. total
renin
(TR), and in untreated plasma, e.g. active
renin
(AR). IR was not detectable in most infants in the supine position, but their AR values were high (8.8-30 ng/ml X h). Moreover, in some of these infants, trypsin appeared to degrade
renin
activity, since TR values were lower than AR values. IR was detectable in 3 infants and 27 children, but their AR values were in a lower range (0.3-10 ng/ml X h).
Trypsin
degradation of
renin
activity was not found in either children or adults. With increasing age (2 days to 40 yr), AR decreased while IR and the IR to TR ratio increased significantly (P less than 0.001). A significant (P less than 0.001) inverse relationship was found between the IR and AR values of subjects 2 days to 40 yr old. IR was detectable in all nephrectomized children and represented 25% of normal values, while AR was undetectable (less than 0.1 ng/ml X h). In children in the upright position, IR decreased and AR increased significantly (P less than 0.001) in a reciprocal manner. TR did not change. These data suggest 1) that trypsin degradation of
renin
activity and absence of trypsin-activated IR are specific to infants with high AR levels, and 2) that IR might be activated in vivo into AR, especially after changes in position in children. IR could be a prorenin playing a physiological role in children.
...
PMID:Inactive renin in infants and children: evidence for its physiological response to orthostasis in children. 637 30
The experimental conditions of trypsin activation of inactive
renin
in rat plasma have been studied. Our results showed that the pH optimum of trypsin-activated
renin
is 6.2, the same as that of rat plasma active
renin
.
Trypsin
concentration and incubation time might also interfere with the activation process.
Trypsin
concentration below 2 mg/ml cannot activate inactive
renin
.
Trypsin
at a concentration of 6 mg/ml for 1 min. can cleave dialyzable fragments from
renin
substrate which can generate Angiotensin I at 37 degrees C with a pH optimum of 5.3 but which do not affect Angiotensin generation at pH 6.2. Longer incubations (more than 2 min.), on the contrary, can produce a cleavage at 4 degrees C of Angiotensin I containing fragments directly from
renin
substrate strongly interfering with measurements of
renin
activity at pH 6.2.
Trypsin
concentrations lower than endogenous rat plasma anti-trypsin activity do not activate inactive
renin
. Much higher concentrations of trypsin, however, are needed to obtain optimum activation of inactive
renin
. In average, 40% of the total circulating
renin
in rat plasma can be activated by trypsin.
...
PMID:Studies on trypsin activation of inactive renin in rat plasma. 675 91
In human plasma, trypsin activates "prorenin" within 1 min at 23 degrees C. It is quickly neutralized by endogenous inhibitors, and the subsequent hourly expression of old and new
renin
activity (PRA) is relatively consistent during 15, 30, or 60 min incubation at 37 degrees. In dog plasma, prorenin activation requires much higher trypsin concentrations - 3-5 mg/ml, vs 0.5-1.5 mg in humans - implying a higher content of endogenous protease inhibitors, and/or the lack of some endogenous mediator of the action of trypsin. These could also be partly responsible for the observed lack of cryoactivation in dogs. The effect of trypsin in dog plasma does not end abruptly as in humans. A post-tryptic prorenin "convertase" continues to act at 37 degrees, steadily increasing the hourly rate of angiotensin generation as the incubation is prolonged. Neither lima bean trypsin inhibitor (LBTI) nor endogenous inhibitors fully inhibit this trypsin-induced convertase. It is transferable to normal plasma, where it raises the PRA. Pepstatin severely inhibits this effect, most probably by inhibiting the new
renin
, possibly also by inhibiting the convertase itself. Rat plasma appears intermediate between human and dog plasmas in some respects.
Trypsin
activates prorenin well at 4 mg/ml, when exposed for 30 min at 23 degrees, provided the subsequent PRA incubation stage is kept short, e.g. 10 vs 30 min. This implies a low tolerance to effective concentrations of trypsin, presumably attributable to the nature and/or quantity of endogenous protease inhibitors. The amount of prorenin, as judged by activation, equals that of dogs. However, active
renin
is distinctly higher in rats, possibly due to the stressful influence of anesthesia and blood collection. This greatly reduces the prorenin:
renin
ratio in rats relative to dogs, and brings them closer to the human ratio. Clamping off the renal blood vessels while blood is collected, lowers the basal PRA, and raises the prorenin:
renin
ratio. Thus, prorenin is detectable in all 3 species, but the best methods for activating it are quite different, implying marked differences in the mechanisms involved.
...
PMID:Peculiarities of plasma "prorenin" measurements in man, dog, and rat, and their theoretical implications. 675 92
We compared two temperatures for cryoactivation, -4 degrees and 4 degrees C, in subjects representing high and low
renin
states. The colder temperature was universally more effective for activating prorenin, but not to the same degree in men and women, in all physiological states. At 4 degrees, for short intervals, false negatives are more likely to be obtained, especially in women and anephrics. We confirmed higher plasma
renin
activities (PRA) in women on oral contraceptive medication (pill), and in the 1st and 3rd trimester of pregnancy. The highest prorenin component was in the 1st trimester, the lowest in anephric subjects (2NX, about 28% of normal). Prorenin as percent of total
renin
was relatively constant in healthy men, women (no pill), women (pill), and women, 1st trimester. In the 3rd trimester, this percentage dropped, p less than 0.025; in anephric men and women, it rose (N.S.), suggesting highest prorenin convertase activity exists in the 3rd trimester, lowest activity in 2NX. This was confirmed by adding Trasylol during cryoactivation at -4 degrees C, and noting least, and greatest inhibition of prorenin activation, respectively. The effectiveness of trypsin relative to cold activation rises as the proportion of 2NX plasma increases in a mixture with normal plasma. The 2NX plasma lacks both prorenin, and its convertase.
Trypsin
can substitute for part of the convertase, and is therefore more effective than cold, which is rate-limited by convertase deficiency. Thus, the choice between trypsin and cold depends, in part, on whether only prorenin, or also its convertase, is being evaluated. Systemic convertase appears to be a dynamic physiological variable influencing
renin
production from prorenin, and is conditioned by the presence of healthy kidneys, and by sex hormones.
...
PMID:Effects of pregnancy, oral contraception, and binephrectomy, on human plasma "prorenin" and its activator(s). 675 3
Normal plasma contains inactive
renin
, which becomes active when plasma is dialyzed to pH 3.3 and to pH 7.5, or treated with pepsin or trypsin. Under optimal conditions, each of these procedures activated the same quantity of
renin
, which was not further increased by repeating or combining two procedures, thus suggesting that the same pool of inactive
renin
was activated by each procedure. When plasma was fractionated by gel filtration, dialysis activated very little
renin
in eluates.
Trypsin
activated
renin
, but under some conditions also destroyed
renin
. Pepsin fully activated the inactive
renin
in eluates without evidence of destruction of
renin
. The pepsin-activated
renin
of normal plasma eluted from Sephadex G-100 in a peak of apparent molecular weight (MW) 58,000 and from Sephacryl S-200 with apparent MW 53,000, like big
renin
in plasma of patients with diabetic nephropathy. Inactive
renin
was usually increased in amount in plasma of sodium-depleted normal men, but the elution volume did not change with sodium intake. When
renin
was fully activated in plasma incubated with pepsin or trypsin, the apparent MW of the main peak of big
renin
did not change appreciably. Inactive
renin
in plasma was usually increased after sodium depletion, but the elution volume did not change. Active
renin
of normal plasma had an apparent MW near 41,000 on both gels. Thus, we conclude that big
renin
is present in normal plasma in amounts at least equal to and usually greater than active
renin
(the ratio depending on sodium intake) and that pepsin activation readily demonstrates big
renin
in eluates from gel filtration.
...
PMID:Inactive renin of high molecular weight (big renin) in normal human plasma. Activation by pepsin, trypsin, or dialysis to pH 3.3 and 7.5. 678 Apr 60
The mechanism of activation of inactive
renin
was studied in normal human plasma. The molecular weight of active
renin
and those of inactive
renin
before and after activation were analyzed by sephadex gel filtration. Active
renin
of human plasma had a molecular weight of 48,000 +/- 1000.
Trypsin
treatment and cold treatment activated inactive
renin
of a molecular weight of 54,000 +/- 1000. The inactive
renin
apparently did not change its molecular weight after activation. "Cryoactivation" of inactive
renin
was possible only when whole plasma was used. When the whole plasma was fractionated by gel filtration, cryoactivation was not observed in any of the fractions. Cryoactivation requires certain plasma factor(s) contained in some fractions. Plasma kallikrein is likely to be a major factor required for the cryoactivation of inactive
renin
, whereas some other factors may also participate in this mechanism.
...
PMID:Studies on the activation and molecular weight of inactive renin in human plasma. 699 73
To study the effect of kallikrein on renal
renin
release, we superfused rat renal cortical slices with 3.5 to 140 milliesterase units (mEU)/ml of purified rat urinary kallikrein. Kallikrein was a potent stimulus of
renin
release. Renin rose in a dose-dependent fashion from 70 mEU/ml to 140 mEU/ml. The response to 140 mEU/ml was greater than that seen with maximal doses of prostaglandin E2 (170 +/- 43%, P < 0.05) and at least the same as isoproterenol (242 +/- 49% increase), or dibutyryl cyclic AMP (272 +/- 40%).
Trypsin
was ineffective under these experimental conditions. Kallikrein-stimulated
renin
release was completely abolished by trasylol, whereas bradykinin did not increase
renin
production, indicating that kallikrein's effect is not mediated via kinin generation. There was no demonstrable acid activation or kallikrein activation of the superfusate and chromatography on Sephacryl S-200 revealed a single
renin
peak of -40,000 mol wt, suggesting that all of the
renin
release was in the active form. The data suggests that urinary kallikrein acts directly on the rat kidney to release
renin
, possibly via proteolytic conversion of prorenin to active
renin
. Our results support the concept that kallikrein may be an endogenous activator of prorenin in the kidney.
...
PMID:Direct action of rat urinary kallikrein on rat kidney to release renin. 699 34
1. Plasma prorenin (inactive
renin
), which accounts for about 70% of the total
renin
in human plasma, was almost completely separated from active
renin
by affinity chromatography on Cibacron blue F3G-A-agarose. The slight residual
renin
activity present in the prorenin peak can be removed on concanavalin A-Sepharose, demonstrating that prorenin is completely inactive. 2. The
renin
activity of both human renal cortical extract and renal perfusate increased after incubation with trypsin. This trypsin-activable
renin
accounted for 15 and 40% of the total
renin
in extract and perfusate respectively. 3.
Trypsin
-activable
renin
from both renal extract and renal perfusate was, like plasma prorenin, almost completely separated from active
renin
on Cibacron blue F3G-A-agarose. After additional chromatographic steps, the trypsin-activable
renin
from renal cortical extract was found to be completely inactive. 4. We conclude that human kidney contains, and is able to release, a trypsin-activable
renin
that resembles plasma prorenin. It may differ from many of the 60 000 molecular-weight forms of
renin
previously identified in renal extracts, since these possess considerable intrinsic
renin
activity and probably represent a complex of
renin
with a binding protein.
...
PMID:An inactive, prorenin-like substance in human kidney and plasma. 700 26
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