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Query: UNIPROT:P00750 (
PLA
)
16,800
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The present study determined whether inhibitors of angiotensin converting enzyme (ACE) can ameliorate radiation-induced pulmonary endothelial dysfunction and pulmonary fibrosis in rats sacrificed 2 months after a range of single doses of 60Co gamma rays to the right hemithorax. Four indices of pulmonary endothelial function were monitored: right lung ACE and
plasminogen activator
(
PLA
) activity, and prostacyclin (PGI2) and thromboxane (TXA2) production. Hydroxyproline (HP) content served as an index of pulmonary fibrosis. Rats consumed either control powdered chow or feed containing one of five modifying agents continuously after irradiation. The modifiers included three ACE inhibitors:
Captopril
, CL242817, and CGS13945, respectively, a thiol, a thioacetate, and a nonthiol compound. All of the ACE inhibitors are analogues of proline. Two additional modifiers were tested: penicillamine, a thiol with no ACE inhibitory activity; and pentoxifylline, a vasodilator that is neither a thiol nor an ACE inhibitor. Radiation produced a dose-dependent decrease in lung ACE and
PLA
activity, and an increase in PGI2 and TXA2 production and in HP content. All ACE inhibitors attenuated the radiation-induced suppression in lung ACE and
PLA
activity. All thiol or thioacetate compounds ameliorated the radiation-induced increase in PGI2, TXA2, and HP. The two agents that were both thiols and ACE inhibitors (
Captopril
and CL242817) spared all of the radiation reactions, while the compound that was neither a thiol nor an ACE inhibitor (pentoxifylline) spared none of the reactions. These data suggest a novel application for ACE inhibitors in general, and for
Captopril
in particular, as modifiers of radiation pneumotoxicity.
...
PMID:Radiation pneumotoxicity in rats: modification by inhibitors of angiotensin converting enzyme. 173 1
We have previously demonstrated that thiol-containing collagen antagonists (penicillamine) and angiotensin-converting enzyme (ACE) inhibitors (
Captopril
and CL242817) ameliorate endothelial dysfunction in irradiated rat lung. The purpose of the present study was to determine whether the non-thiol ACE inhibitor CGS13945 also modifies radiation-induced pulmonary endothelial dysfunction in rats sacrificed 2 months after a single dose (0-30 Gy) of 60 Co gamma rays to the right hemithorax. The CGS13945 was administered in the feed continuously after irradiation at a regimen of 30 mg (kg body weight)-1 day-1. Four markers of lung endothelial function were monitored: ACE activity,
plasminogen activator
(
PLA
) activity, and prostacyclin (PGI2) and thromboxane (TXA2) production. Right lung ACE and
PLA
activities decreased with increasing radiation dose, and CGS13945 significantly ameliorated both responses. Dose-reduction factors (DRF) for the inhibitor were 1.80 for ACE activity and 1.41 for
PLA
activity (p less than 0.05). In contrast, lung PGI2 and TXA2 production increased with increasing radiation dose, and CGS13945 did not influence either response significantly. Thus the ACE inhibitor CGS13945 modifies radiation-induced pulmonary endothelial dysfunction in rats, indicating that the presence of a thiol group is not essential for therapeutic efficacy in this class of compounds. On the other hand, CGS13945 exhibits a differential sparing of radiation-induced pulmonary endothelial dysfunction, as does penicillamine. A structure-function analysis of the present and previous data indicates that all of the ACE inhibitors tested (
Captopril
, CL242817 and CGS13945) spare the radiation-induced suppression in lung ACE and
PLA
activity; all of the thiol compounds tested (penicillamine,
Captopril
and CL242817) spare the radiation-induced elevation in lung PGI2 and TXA2 production; and the thiol ACE inhibitors (
Captopril
and CL242817) spare all four endothelial responses. These data confirm a novel and potentially important application for ACE inhibitors as modifiers of radiation-induced lung injury, and suggest that there are at least two components to their mechanism of therapeutic action in this model.
...
PMID:Structure-function analysis of angiotensin-converting enzyme inhibitors as modifiers of radiation-induced pulmonary endothelial dysfunction in rats. 254 Aug 64
The purpose of this study was to determine whether
Captopril
(an angiotensin converting enzyme inhibitor) or D-penicillamine (an inhibitor of collagen crosslinking) can ameliorate pulmonary fibrosis induced by the plant alkaloid monocrotaline. Rats were randomly assigned to one of six treatment groups: (1) control; (2)
Captopril
, 60 mg/kg/day, p.o.; (3) D-penicillamine, 30 mg/kg/day, p.o.; (4) monocrotaline, 2.4 mg/kg/day, p.o.; (5) monocrotaline plus
Captopril
, as above; (6) monocrotaline plus penicillamine, as above; and were killed after 6 weeks of continuous drug administration. Monocrotaline-treated rats exhibited several anatomic correlates of pulmonary hypertension, including cardiomegaly, right heart enlargement, and muscularization of the pulmonary arteries and arterioles. These monocrotaline reactions were accompanied by decreased lung activities of angiotensin converting enzyme (ACE) and
plasminogen activator
(
PLA
), indicative of endothelial dysfunction; and by increased lung hydroxyproline concentration, indicative of interstitial fibrosis. The presence of interstitial fibrosis was confirmed by electron microscopy. When given concomitantly with monocrotaline, both
Captopril
and penicillamine partially prevented the cardiomegaly, right heart enlargement, and vascular muscularization. Both agents also diminished the decreased lung
PLA
activity and increased hydroxyproline concentration observed in monocrotaline-treated animals. Neither modifying agent influenced the monocrotaline-induced decrease in lung ACE activity. Compared with control rats, the rats receiving
Captopril
alone exhibited decreased heart weight and increased serum ACE activity, and animals receiving penicillamine alone did not differ significantly from control animals for any of the endpoints studied. These data demonstrate that
Captopril
and penicillamine ameliorate monocrotaline-induced pulmonary fibrosis in rats. Penicillamine, known to inhibit radiation-induced lung injury, thus is shown to be effective in a second model of pulmonary fibrosis. Perhaps more importantly, the hydroxyproline data demonstrate that the ACE inhibitor Captropril exhibits antifibrotic activity in monocrotaline-treated rat lung.
...
PMID:Monocrotaline-induced pulmonary fibrosis in rats: amelioration by captopril and penicillamine. 299 75
Thiol angiotensin converting enzyme (ACE) inhibitors (
Captopril
, CL242817) and collagen antagonists (D-penicillamine) partially prevent pulmonary hypertension in monocrotaline-treated rats. The purpose of the present study was to determine whether the nonsulfhydryl ACE inhibitors CGS13945 and CGS16617 also ameliorate monocrotaline-induced cardiopulmonary damage in rats consuming the drugs continuously for 6 weeks. D-penicillamine was tested concomitantly as a positive control. Monocrotaline-treated animals developed severe pulmonary histopathology occlusive wall thickening of the pulmonary arteries, adrenomegaly, cardiomegaly, and right heart enlargement. Concomitant administration of CGS13945, CGS16617, or penicillamine ameliorated most of these monocrotaline reactions. Monocrotaline-induced histopathologic changes in the lung were accompanied by pulmonary endothelial dysfunction, including suppressed ACE and
plasminogen activator
activity and increased prostacyclin and thromboxane production. None of the modifying agents influenced these functional abnormalities in monocrotaline-treated lung endothelium. Thus, the ACE inhibitors CGS13945 and CGS16617 ameliorate monocrotaline-induced cardiopulmonary damage in rats, indicating that the presence of a thiol group is not essential for this class of compounds to exhibit therapeutic activity against monocrotaline lung injury. The present data do not identify the mechanism of action of CGS13945 and CGS16617, but appear to rule out lung ACE inhibition and lung endothelial cell sparing as major therapeutic factors.
...
PMID:Monocrotaline-induced cardiopulmonary injury in rats: modification by the nonthiol ACE inhibitors CGS13945 and CGS16617. 312 98
The ability of the angiotensin converting enzyme (ACE) inhibitor
Captopril
to modify radiation-induced pulmonary endothelial dysfunction was determined in male rats sacrificed 2 months after a single dose of 10-30 Gy of 60Co gamma rays to the right hemithorax. Half of each dose group consumed feed containing 0.12% w/w
Captopril
(60 mg/kg/day) continuously after irradiation, and half consumed control feed. Four markers of endothelial function were monitored: ACE activity,
plasminogen activator
(
PLA
) activity, and prostacyclin (PGI2) and thromboxane (TXA2) production. All data were plotted as dose-response curves, and subjected to linear regression analysis. The
Captopril
modifying effect was expressed as the ratio of isoeffective doses at a common intermediate response (DRF), or as the ratio of the response curve slopes. Right lung ACE and
PLA
activity decreased linearly, and PGI2 and TXA2 production increased linearly with increasing radiation dose.
Captopril
exhibited DRF values of 1.4-2.1, and slope ratios of 1.4-5.1 for all four functional markers (p less than 0.05). Thus, the ACE inhibitor
Captopril
ameliorates radiation-induced pulmonary endothelial dysfunction in rats sacrificed 2 months postirradiation. Although the mechanism of
Captopril
action is not clear at present, these data suggest a novel application for this class of compounds as injury-modifying agents in irradiated lung.
...
PMID:Radiation-induced pulmonary endothelial dysfunction in rats: modification by an inhibitor of angiotensin converting enzyme. 329 88
The concept of classical endocrine control of ovarian function has now been extended to a more complex regulator system, including paracrine and autocrine modulating mechanisms. Among many factors, locally produced intraovarian insulin-like growth factors (IGFs) and the binding proteins (IGFBPs) and renin-angiotensin system (RAS) have been shown to play an important role in the control of folliculogenesis and ovulation. Growth hormone (GH) amplified gonadotropin actions in the process of follicular development and ovulation, at least in part, stimulating ovarian IGF-I production. IGF-I as well as IGFBPs were produced by ovarian granulosa cells. IGF-I acted synergistically with gonadotropins in the stimulation of a variety of granulosa cell functions, including estradiol (E2) and progesterone production and
plasminogen activator
(PA) activity. Furthermore, rabbit ovarian cells and rat granulosa cells possessed specific IGF type I receptors. The biological effects of IGF-I, including intrafollicular PA activities and ovarian steroidogenesis, were modulated by a family of IGFBPs in a complex manner. In the ovary IGFBP-3 appeared to neutralize the actions of gonadotropin and IGF-I, probably via its ability to sequester IGF-I, in the process of follicular growth, oocyte maturation, and ovulation. A functional local RAS is also known to exist in the ovary. Angiotensin II (Ang II) at 2-h intervals induced oocyte maturation, ovulation, and the production of E2 and prostaglandins (PGs) in the in vitro perfused rabbit ovaries in the absence of gonadotropin. In addition, the intrafollicular Ang II content and renin-like activity were enhanced during the ovulatory process by exposure to hCG, and the concomitant addition of saralasin inhibited hCG-induced ovulation in a dose-dependent manner.
Captopril
, an inhibitor of angiotensin converting enzyme, significantly inhibited the resumption of meiosis in the ovulated ova and follicular oocytes stimulated by hCG. Autoradiographic study revealed that AT2 receptors were predominantly located in granulosa cells, whereas AT1 receptors were more concentrated in the stroma and the thecal layers. Ang II-stimulated production of E2 and PGs and ovulation were significantly blocked by PD123319, a selective nonpeptide antagonist for AT2 receptors. The increase in ovarian IGF-I synthesis by exposure to hCG or GH induced the stimulation of intrafollicular PA activities. IGFBP-3 blocked the stimulatory effects of gonadotropin in the ovulatory process by neutralizing endogenously produced IGF-I, resulting in reduced intrafollicular PA activities. The increase in intrafollicular PA activities significantly stimulated the generation of Ang II in the preovulatory follicles by an activation of prorenin to renin and/or by the direct cleavage of angiotensinogen.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:[Regulatory system and physiological significance of local factors in the ovary during follicular development and maturation]. 759 85
Gateways to Clinical Trials is a guide to the most recent clinical trials in current literature and congresses, which has been retrieved from the Clinical Studies knowledge area of Prous Science Integrity, the world's first drug discovery and development portal, providing information on study design, treatments, conclusions and references. This issue focuses on the following selection of drugs: Abacavir sulfate; abciximab; abetimus sodium; adalimumab; aldesleukin; almotriptan;
alteplase
; amisulpride; amitriptyline hydrochloride; amoxicillin trihydrate; atenolol; atorvastatin calcium; atrasentan; Beclometasone dipropionate; bosentan;
Captopril
; ceftriaxone sodium; cerivastatin sodium; cetirizine hydrochloride; cisplatin; citalopram hydrobromide; Dalteparin sodium; darusentan; desirudin; digoxin; Efalizumab; enoxaparin sodium; ertapenem sodium; esomeprazole magnesium; estradiol; ezetimibe; Famotidine; farglitazar; fluorouracil; fluticasone propionate; fosamprenavir sodium; Glibenclamide; glucosamine sulfate; Heparin sodium; HSPPC-96; hydrochlorothiazide; Imatinib mesilate; implitapide; Lamivudine; lansoprazole; lisinopril; losartan potassium; l-Propionylcarnitine; Melagatran; metformin hydrochloride; methotrexate; methylsulfinylwarfarin; Nateglinide; norethisterone; Olmesartan medoxomil; omalizumab; omapatrilat; omeprazole; oseltamivir phosphate; oxatomide; Pantoprazole; piperacillin sodium; pravastatin sodium; Quetiapine hydrochloride; Rabeprazole sodium; raloxifene hydrochloride; ramosetron hydrochloride; ranolazine; rasburicase; reboxetine mesilate; recombinant somatropin; repaglinide;
reteplase
; rosiglitazone; rosiglitazone maleate; rosuvastatin calcium; Sertraline; simvastatin; sumatriptan succinate; Tazobactam sodium; tenecteplase; tibolone; tinidazole; tolterodine tartrate; troglitazone; Uniprost; Warfarin sodium; Ximelagatran.
...
PMID:Gateways to clinical trials. 1198 Mar 86
Angiostatin, a proteolytic fragment of plasminogen consisting of the first 3 or 4 kringle domains, reduces tumor growth by specifically inhibiting tumor angiogenesis. Angiostatin is generated in vitro in a 2-step process. First, plasminogen is converted to plasmin by plasminogen activators. Next, plasmin excises the angiostatin fragment from plasminogen, a process requiring molecules that are able to donate a free sulfhydryl group. In this study, we investigated whether stimulation of in vivo angiostatin generation by administration of
plasminogen activator
and a free sulfhydryl group donor (FSD) has anti-tumor activity. First, we determined the optimal conditions for in vitro angiostatin generation by incubating murine plasma with different concentrations of
plasminogen activator
and/or the FSD captopril. Angiostatin generation was monitored by western blot analysis. Our results were extrapolated to the in vivo situation by administering the optimal dose of
tissue-type plasminogen activator
(tPA, i.v. injection 3 times/week) and captopril (in drinking water) to mice and analyzing the presence of angiostatin in the circulation. Angiostatin was readily detectable in mice receiving both tPA and captopril, but not in mice receiving either one of the agents. Finally, the anti-tumor activity of the tPA/captopril treatment was tested in a human melanoma xenograft model. Administration of tPA alone had only a marginal effect on tumor growth.
Captopril
alone reduced tumor growth by about 60%, whereas treatment with both captopril and tPA resulted in 83% inhibition of tumor growth.
...
PMID:Anti-tumor activity of a combination of plasminogen activator and captopril in a human melanoma xenograft model. 1535 48
The effects of hypotensive agents (captopril, enalaprilate, and lisinopril) on the activities of components of the fibrinolytic system (FS) and the effects of antifibrinolytic agents (6-aminohexanoic acid (6-AHA) and tranexamic acid (t-AMCHA)) on the activities of angiotensin converting enzyme (ACE) were studied in vitro. Enalaprilate did not affect the FS activity.
Captopril
considerably inhibited the amidase activities of urokinase (u-PA), plasminogen tissue activator (
t-PA
), and plasmin ([I]50 (2.0-2.6) +/- 0.1 mM), and the activation of Glu-plasminogen affected by
t-PA
and u-PA ([I]50 (1.50-1.80) +/- 0.06 mM), which may be due to the presence of a mercapto group in the inhibitor molecule. Lisinopril did not affect the amidase activities of FS enzymes, but stimulated Glu-plasminogen and u-PA activation and inhibited activation of
t-PA
-fibrin-bound Glu-plasminogen ([I]50 (12.0 +/- 0.5) mM). Presumably, these effects can be explained by the presence in lisinopril of a Lys side residue, whose binding to lysine-binding Glu-plasminogen centers resulted, on the one hand, in the transformation of its closed conformation to a semi-open one and, on the other hand, in its desorption from fibrin. Unspecific inhibition of the activity of ACE, a key enzyme of the renin-angiotensin system, in the presence of 6-AHA and t-AMCHA ([I]50 10.0 +/- 0.5 and 7.5 +/- 0.4 mM, respectively) was found. A decrease in the ACE activity along with the growth of the fibrin monomer concentration was revealed. The data demonstrate that, along with endogenous mediated interactions, relations based on the direct interactions of exogenous inhibitors of one system affecting the activities of components of another system can take place.
...
PMID:[The in vitro cross-effects of inhibitors of renin-angiotensin and fibrinolytic systems on the key enzymes of these systems]. 1869 19
