UMLS:C0406810 - FACTA Search

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Query: UMLS:C0406810 (NAME)
13,345 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The monoclonal antibody AR-3 reacts with an epitope (CAR-3) carried on a high-molecular-weight glycoprotein associated with carcinomas of the pancreas, stomach, colon, uterus, and ovary. This study reports the partial purification and characterization of CAR-3-bearing molecule. The antigen was quantified by a double determinant immunoradiometric assay. CAR-3 antigen was purified by a three-step procedure, consisting of perchloric acid extraction, molecular sieving on Sepharose CL-4B, and affinity chromatography on AR-3 antibodies coupled to Sepharose 4B. Following this procedure CAR-3 antigen was purified about 400-fold with a 36% yield. Treatment of the CAR-3 antigen with 16 mM metaperiodate or with 1 N NaOH resulted in complete loss of activity. Antigenicity survived enzymatic treatments known to destroy proteins. The epitope was found to be carried on a molecule with a molecular weight of greater than 400,000 with a density of 1.45 g/ml, metabolically labeled with [35S]sulfate, [3H]glucosamine, and [35S]methionine. It is concluded that CAR-3 epitope is expressed on a carbohydrate moiety linked to a sulfo-mucin-like molecule via an O-glycosidic bond. Cross-competition experiments showed that CAR-3 epitope is strictly related or in close topographic proximity to Lewis(a) and Lewis(b) antigens. Cross-double determinant immunoradiometric assay experiments indicated that the same mucin carrying CAR-3 bears also CA 19-9, CA 125, and BW 494 epitopes.
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PMID:Biochemical and immunological properties of the human carcinoma-associated CAR-3 epitope defined by the monoclonal antibody AR-3. 246 53

Embryonic implantation is a complex process in which both maternal and embryonic signals are involved. In the present study, we evaluated changes in uterine prostaglandins production and nitric oxide synthase (NOS) activity during the course of early pregnancy and their interaction during implantation in rats. Uterine phospholipase A2 (PLA2) activity is increased on days 5 (day of ovoimplantation) and 6, compared to preimplantation days (3 and 4). This enhanced activity might be responsible for the observed increase in uterine PGE and PGF2 alpha production observed on day 5 of pregnancy, which induces endometrial vascular permeability and decidualization. When embryo access to the uterus is impaired, the increase of PG production is suppressed. During postimplantation, PGE levels return to preimplantation values, while PGF2 alpha decreased with respect to preimplantation values. Uterine NOS activity is also increased on day 4 and reaches a maximum on day 5, with a profile similar to PGE and PGF2 alpha. Dexamethasone administered in vivo decreased uterine NOS activity on day 4 of pregnancy but not on day 5, suggesting the presence of at least two types of NOS enzymes in the early days of pregnancy. A competitive inhibitor of NOS, L-NAME (600 and 1000 microM) induced a decrease in PGE and PGF2 alpha production in uterine tissue on day 5 of pregnancy. These results suggest the existence of a physiologically relevant nitridergic system which modulates prostaglandin production in the rat uterus during embryonic implantation.
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PMID:Interaction between uterine PGE and PGF2 alpha production and the nitridergic system during embryonic implantation in the rat. 887 32

Administration of the nitric oxide synthase (NOS) inhibitor NG-nitro-L-arginine methyl ester (L-NAME) results in fetal growth retardation. This study was designed to further examine the influence of NO on fetal growth, specifically, the potential role of inducible NOS and to evaluate the possibility that apoptosis contributed to uteroplacental dysfunction. L-NAME administration caused a paradoxical increase in NO synthesis determined by direct detection of NO by electrochemistry, nitrite accumulation, and cGMP levels, indicating that a lack of NO was not the cause of the fetal growth retardation. Additionally, supplemental L-arginine or NO donors failed to reverse the effects of L-NAME on fetal and placental size. Administration of low dose endotoxin (30 micrograms/kg IP daily for 6 d) also caused significant reductions in fetal and placental size and increased NO synthesis comparable to that seen with L-NAME. Inducible NOS was constitutively expressed in the pregnant uterus (smooth muscle and epithelia) and placenta (sinusoids and macrophages) but was absent in the nonpregnant state as determined by RT-PCR and immunohistochemistry. Neither L-NAME nor endotoxin modified the expression of iNOS. In situ evidence for apoptosis (DNA fragmentation) was minimal to absent in control pregnant rats, but markedly evident in the placenta (decidua) and uterus of rats treated with L-NAME or endotoxin. Immunohistochemical evidence for nitrotyrosine, a marker for peroxynitrite formation, was absent in control rats but colocalized with apoptosis in the L-NAME and LPS groups. We conclude that L-NAME-induced fetal growth retardation is not due to a lack of NO, but as for endotoxin, results from a net reduction in cellular proliferation due to the induction of apoptosis, possibly in response to peroxynitrite formation.
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PMID:Fetal growth retardation in rats may result from apoptosis: role of peroxynitrite. 889 65

The aim of this study was to determine if nitric oxide (NO) production and nitric oxide synthase (NOS) isoforms change within the uterus and cervix during pregnancy and labour either at term or preterm. NO production was compared in the rat uterus and cervix of non-pregnant and pregnant rats on days 18-22 prior to labour, day 22 during delivery, 1 day post-partum and after treatment with either 10 mg onapristone or progesterone. Uterine NO synthesis, reflected in nitrite production, increased during gestation (194.2 +/- 22.6 nmol/g on day 19) compared with the non-pregnant state (76.2 +/- 18.4 nmol/g, P < 0.05) and decreased during term labour and post-partum. Furthermore, injection of lipopolysaccharide (LPS) (100 micrograms/rat i.p.) on day 20 of gestation resulted in a significant increase in NO synthesis after 6 h. Conversely, cervical NO synthesis and nitrite production was low in the non-pregnant (65.1 +/- 9.2 nmol/g) and pregnant animals on days 18-22 of gestation (53.2 +/- 9.0 nmol/g on day 22, P > 0.05), but markedly increased during term labour (139 +/- 28.6 nmol/g, P < 0.05). Treatment with the antiprogestin onapristone suppressed uterine NO production and increased cervical production while continuous administration of progesterone from day 19 had the opposite effect. LPS produced a significant increase in cervical NO production in both the pregnant (8-fold) and non-pregnant (4-fold) states. All three known NOS isoforms (i.e., iNOS, nNOS and eNOS) were detected in the cervical samples but only two were present in the uterus (iNOs and eNOS). An increase in the presence of iNOS occurred during labour at term compared with cervices collected from day 19. This was contrary to the measurements of the isoform in the uterus. Also, there was a similar increase of nNOS in the cervix during labour. This isoform seemed absent in the uterus during gestation. No significant changes occurred in the abundance of eNOS in the cervix during labour at term compared with day 19. During preterm labour after onapristone, iNOS concentrations increased significantly in the cervix. In order to examine whether the NO pathway plays a role in cervical ripening, the effects of the nitric oxide synthesis inhibitor L-nitro-arginine methylester (L-NAME) on the duration of delivery and on cervical extensibility were also investigated. The duration of delivery was significantly prolonged in L-NAME-treated rats compared with the control group (2.4-fold). Moreover, cervical extensibility decreased significantly (1.7-fold) after in-vitro incubation with L-NAME (P < 0.005). We conclude that the NO system may have an active role in the cascade of processes involved in preparing the uterus and cervix for parturition.
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PMID:Differential regulation of nitric oxide in the rat uterus and cervix during pregnancy and labour. 892 Nov 28

In vivo administration of HOE 140 (a new bradykinin receptor antagonist) and L-NAME (nitric oxide synthase inhibitor) was performed in chronic streptozotocin-diabetic rats. Basal increases (in umol.g dw-1) in liver (45.0 +/- 3.4.1) and uterine (40.0 +/- 2.95) triglyceride levels in diabetic animals vs control (liver: 34.0 +/- 3.87; uterus: 30.2 +/- 4.01) were partially prevented by L-NAME (p < 0.01), HOE 140 (p < 0.01) and L-NAME + HOE 140 (p < 0.01). High glycogen levels (in mg.g dw-1) observed in diabetic uterine tissue (3.07 +/- 0.90), and decreased glycogen content detected in diabetic liver (11.64 +/- 1.50) vs. control (uterus: 1.59 +/- 0.15, liver: 17.25 +/- 0.87) were unaffected. Uterine 14CO2 production from 14C-U-Glucose (in uCi.mg dw), which is lower in diabetic (35.0 +/- 5.12) than in control (50.12 +/- 4.54) tissues, was improved by HOE 140 (p < 0.05) and L-NAME+HOE 140 (p < 0.05), while hepatic glucose oxidation was not increased by the drugs. Glycemia levels were decreased in diabetic rats injected with L-NAME and L-NAME plus HOE 140. Pancreatic 6-Keto-prostaglandin F1 alpha to Thromboxane B2 ratio was lower in diabetic animals than in controls, and L-NAME and/or HOE 140 treatment prevented the decrement. These findings suggest that vasoactive compounds might prevent streptozotocin-induced damage in pancreatic tissue from chronic diabetic rats.
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PMID:Influence of nitric oxide synthase and kinin antagonists on metabolic parameters in chronic streptozotocin-induced diabetes mellitus. 924 72

It has previously been demonstrated that uterine nitric oxide synthase (NOS) activity increases before embryonic implantation in rats. The aim of the present work was to investigate the regulation and the physiological relevance of the nitric oxide (NO) system in ovoimplantation. The increase in NOS activity in early pregnancy was found to be independent of the presence of embryos in the uterus. Whereas the Ca2+-dependent isoform of NOS increased gradually in the preimplantation days, the Ca2+-independent isoform increased just at the beginning of implantation (Day 5, 1800 hours); then the activity of both isoforms declined. Oestradiol, whose concentration peaks before implantation, might be regulating NOS activity in the uterus, since treatment of rats with tamoxifen, a receptor antagonist, reduces the activity of both isoforms to preimplantation levels. Intraluminal injections of L-NAME (0.5 mg kg[-1]), a competitive inhibitor of NOS, reduced by 50% the number of implanted embryos; this suggests that the NO system plays a role during implantation. The data suggest that oestradiol might be a modulator of NOS activity during nidation and that NO production is necessary to achieve a successful embryo implantation.
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PMID:Nitric oxide synthase regulation during embryonic implantation. 941 87

To explore the role of calcitonin gene-related peptide (CGRP) in rat pregnancy, we determined the density of myometrial CGRP-encoded nerve fibre terminals and examined, in an organ bath, the relaxant effect of the peptide on uterine strips near parturition. Comparisons were made with the uterus and aorta of nonpregnant rats. In the myometrium, CGRP immunoreactive nerve fibers were abundant in nonpregnant rats and scarce at the parturient stage. In the aorta there was no variation in the density of CGRP fibres with gestation. In nonpregnant rats only, CGRP relaxed spontaneous and tetrodotoxin (TTX)-sensitive electrically-evoked uterine contractions (EC50 40 nM, Emax 80%). The effect was antagonized by CGRP[8-37] (pKB 6.47) but was not affected by either blockers of nitricoxid synthase or ATP-sensitive potassium channels. CGRP was also able to relax contractions evoked by direct depolarization of the cells (TTX-insensitive contractions) (EC50, 2 nM, Emax 70%). In aorta contracted with arginine vasopressin, CGRP-induced relaxation was the same in nonpregnant and parturient animals. It was antagonized by CGRP [8-371 (pKB 6.90) and was abolished in presence of the nitric oxide synthase inhibitor Nomega-nitro-L-arginine methyl ester (L-NAME). Amylin neither relaxed the uterus nor the aorta. In pregnant rats, the relaxant effect of CGRP on the uterus was limited on day 21 and was totally absent on day 22 of gestation. We conclude that the primary relaxant effect of CGRP on the uterus occurs at the level of myometrial smooth muscle cells. In the myometrium, gestation decreases CGRP innervation and impairs the relaxant responses to CGRP. Such changes are not observed in vascular tissues like aorta.
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PMID:Relaxant effect of the calcitonin gene-related peptide (CGRP) on the nonpregnant and pregnant rat uterus. Comparison with vascular tissue. 960 32

The aim of the present study was to investigate the effect of nitric oxide (NO) on the relaxant activity of caffeine and aminophylline on rat myometrial strips. Uteri of pregnant Wistar rats were removed and suspended in 10-ml organ baths containing 37 degreesC Krebs bicarbonate solution gassed with 95% O2 and 5% CO2. The significance of the results was assessed by Student's t-test and P<0.05 was considered significant. A relaxant effect was observed with 10(-5)-10(-2) M caffeine (n=8) and aminophylline (n=6) on pregnant rat myometrial strips precontracted with 64 mM K+ (IC50=4.21+/-0.35 and 4.25+/-0.26, respectively). Incubation with 10(-5) M methylene blue, 10(-5) M haemoglobin, 10(-6) M Nomega-nitro-L-arginine methyl ester (L-NAME), 2x10(-7) M forskolin and 10(-6) M zaprinast exerted no effect on the relaxations (P>0.05). When the concentration of external Ca2+ was decreased to 0.5 mM or increased to 4.5 mM from the control level of 1.5 mM, the concentration-inhibition curves for caffeine and aminophylline shifted to the left or to the right, respectively. Our results suggest that: (1) the L-arginine-NO-cGMP system has no effect on the inhibition induced by caffeine and aminophylline on K+ induced contractions of pregnant rat myometrium; (2) this inhibitory effect is not mediated by cAMP; (3) cGMP does not play a role on the relaxant effect of these drugs; and (4) that Ca2+ plays the major role on the relaxations obtained with methylxanthine derivatives on pregnant rat uterus. (c) 1998 The Italian Pharmacological Society.
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PMID:The probable role of nitric oxide on the relaxations obtained by caffeine and aminophylline in rat uterus. 980 19

Nitric oxide (NO) plays an important role in cell signalling in many physiological systems, including reproduction. During pregnancy, oestrogen modulates uterine NO generation, and NO may play an intermediary role in the oestrogen-mediated effects on the uterus. Since oestrogen is actively involved in inducing endometrial receptivity to support the process of implantation, the role of NO in the process of implantation in rats was investigated. N omega-nitro-L-arginine methyl ester (L-NAME), an inhibitor of NO synthase (NOS), was administered in utero with or without sodium nitroprusside (SNP), a generator of NO, on different days during the preimplantation phase of gestation. The status of gestation in respect of implantation failure, endometrial receptivity and embryo development were assessed. L-NAME was administered at various doses (2-5 mg per uterine horn) and on different days of pregnancy (days 2-6 of pregnancy) to optimize the pregnancy terminating dose (absence of implantation site on day 8 of pregnancy) and the effective day of treatment. L-NAME led to failure of implantation when administered at 2.5 mg per uterine horn on day 3 of pregnancy. The characteristic preimplantation permeability changes in the uterus were significantly attenuated and embryo growth was retarded. The L-NAME-mediated effects were significantly reversed when SNP (100 micrograms) was co-administered with L-NAME. These findings suggest a role for NO in the process of implantation. The possible mechanism by which inhibition of the NO-NOS system may interfere with implantation is discussed.
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PMID:The role of nitric oxide in the process of implantation in rats. 987 68

The contribution of nitric oxide to host resistance to experimental pyelonephritis is not well understood. We examined whether the inhibition of nitric oxide synthesis alters the sensitivity of lipopolysaccharide (LPS) responder (C3H/HeN) and nonresponder (C3H/HeJ) mice to experimental Escherichia coli pyelonephritis. C3H/HeJ and C3H/HeN mice were implanted subcutaneously with minipumps containing an inhibitor of nitric oxide, NG-nitro-L-arginine methyl ester (L-NAME), or a corresponding vehicle. Ascending urinary tract infection by bladder catheterization with two strains of E. coli, an O75 strain bearing Dr fimbriae and an O75 strain bearing P fimbriae, was developed in tested animals. Twenty-four hours following bladder infection, the kidneys of C3H/HeN and C3H/HeJ mice were colonized at a similar rate. However, 5 weeks postinoculation, C3H/HeN mice cleared infection while C3H/HeJ mice showed persistent colonization. Twenty-four hours following infection, C3H/HeN mice treated with L-NAME showed no significant increase of renal tissue infection compared to the saline-treated control group. However, L-NAME-treated C3H/HeJ mice showed an approximately 100-fold increase in E. coli infection rate compared to the saline-treated controls in the Dr+ group but showed no change compared to those in the P+ group. Dissemination of Dr+ E. coli but not P+ E. coli to the liver and uterus was significantly enhanced with L-NAME treatment in C3H/HeJ mice only. Nitric oxide had no direct killing effect on E. coli in vitro. Nitrite production by various organs was found to be significantly lower in C3H/HeJ mice than in C3H/HeN mice. Alteration of nitric oxide and LPS responsiveness was significantly associated with the increased sensitivity of C3H/HeJ mice to experimental Dr+ but not to P+ E. coli pyelonephritis. These findings are consistent with the hypothesis that nitric oxide synthase activity in concert with LPS responsiveness may participate in the antibacterial defense mechanisms of the C3H mouse urinary tract. This phenomenon is strain dependent and possibly related to the invasive properties of E. coli.
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PMID:Inverse relationship between severity of experimental pyelonephritis and nitric oxide production in C3H/HeJ mice. 1022 4

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