UMLS:C0403608 - FACTA Search

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Query: UMLS:C0403608 (ureter)
9,655 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Perfusion of a rabbit kidney 72 h after ureter obstruction resulted in a progressive increase in bioassayable prostaglandin-like substances released in response to a fixed dose of bradykinin with time. Contralateral or normal kidneys showed no progressive increase with time of prostaglandin-like substances released in response to the same dose of agonist during perfusion. Actinomycin D, an inhibitor of RNA synthesis and cycholeximide, reversibly blocked the time-dependent progressive increase in renal prostaglandin-like substances released from the obstructed kidney. Acetylsalicylic acid, which covalently acetylates the cyclooxygenase, inhibited initial bradykinin-stimulated prostaglandin biosynthesis by 95% in the ureter-obstructed kidney, but within 60 to 90 min of perfusion there was progressive bioassayable prostaglandin E2 release in response to bradykinin which paralleled the non-aspirin-treated control. In the aspirin-treated contralateral (unobstructed control) and normal kidneys bradykinin-stimulated release of prostaglandin-like substances was inhibited by 85% and did not recover during the perfusion experiments consistent with the evidence that the control kidneys are not synthesizing new enzyme. These experiments suggest that the progressive enhanced prostaglandin release to fixed bradykinin doses in the ureter-obstructed kidney is dependent on de novo cyclooxygenase synthesis.
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PMID:Mechanism of enhanced renal prostaglandin biosynthesis in ureter obstruction. Role of de novo protein synthesis. 71 47

Basal and hormone-stimulated prostaglandin biosynthesis was compared in isolated perfused rabbit kidneys with and without ureteral obstruction. At 72 h there was enhanced responsiveness to bradykinin in the ureter-obstructed hydronephrotic kidney. The amount of prostaglandin-like substance released from the perfused kidneys by 25 ng of bradykinin was 533+/-163 ng from the ureter-obstructed, 28+/-4 ng from the contralateral, and 26+/-3 ng from the normal kidney. The enhanced response was also noted with angiotensin II and with norepinephrine. This exaggerated responsiveness by the ureter-obstructed kidney could not be explained by decreased prostaglandin (PG) destruction or by decreased renal peptide inactivation (bradykinin or angiotensin). There was no enhanced PG biosynthesis with exogenous arachidonate, suggesting there was no increase in cyclo-oxygenase activity in the ureter-obstructed kidney. Renal tubular transport of PG from medulla to cortex was apparently not essential for the enhanced PG biosynthesis to hormone stimulation since the same exaggerated responses were noted during perfusion with the ureter ligated. The cyclo-oxygenase inhibitor, indomethacin, increased basal perfusion pressure in the obstructed kidney and enhanced the magnitude and duration of the renal vasoconstriction produced by angiotensin II in the hydronephrotic kidney. These results suggest that the local exaggerated biosynthesis of PG may be occurring in the cortical resistance vessels and may be important to the alteration in blood flow and excretory function that occur in ureteral obstruction.
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PMID:Exaggerated prostaglandin biosynthesis and its influence on renal resistance in the isolated hydronephrotic rabbit kidney. 86 6

CP-96,345, a potent non-peptide antagonist of the substance P (SP) receptor, inhibited SP-, neurokinin A (NKA)- and neurokinin B-induced plasma extravasation in guinea pig dorsal skin. The inhibition was specific for the three tachykinins; CP-96,345 was not active against plasma leakage caused by histamine, bradykinin, platelet-activating factor or leukotriene D4. CP-96,345 inhibited capsaicin-induced plasma extravasation in the ureter, an inflammatory response caused by neuropeptides released from afferent C-fibers. Thus, the NK1 receptor appears to play a major role in vascular permeability increases induced by exogenous and endogenous tachykinins. In contrast, CP-96,345 was inactive against SP- and NKA-induced contraction of guinea pig ureter, suggesting that the smooth muscle contraction is not NK1-mediated. CP-96,345 exhibited analgesic activity in acetic acid-induced abdominal stretching in mice, indicating for the first time that SP plays a critical role in this model. The results of these studies support a pathophysiological role of SP and NK1 receptor under acute neurogenic inflammatory conditions and in pain.
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PMID:Antiinflammatory and analgesic activity of a non-peptide substance P receptor antagonist. 133 May 89

The local motor response to bradykinin and the bacterial chemotactic peptide, formyl-methionyl-leucyl-phenylalanine (FMLP) was investigated in the guinea-pig isolated renal pelvis and ureter in relation to possible activation of capsaicin-sensitive primary afferent nerves and release of sensory neuropeptides. Both bradykinin (1 nM-10 microM) and FMLP (10 nM-10 microM) produced a concentration-dependent positive inotropic effect in the isolated renal pelvis which was unaffected by in vitro capsaicin desensitization. The response to bradykinin was antagonized by HOE 140, a bradykinin receptor antagonist, while it was unaffected by MEN 10,376, a tachykinin receptor antagonist, hCGRP(8-37) a calcitonin gene-related peptide (CGRP) receptor antagonist and N-t-BOC-Phe-DLeu-Phe-DLeu-Phe (BPLPLP), an FMLP antagonist. The response to FMLP was blocked by BPLPLP while it was unaffected by HOE 140, MEN 10,376 or hCGRP(8-37). Indomethacin (10 microM) enhanced the response to both bradykinin and FMLP. Bradykinin transiently activated rhythmic contractions in the isolated ureter. The response to bradykinin was blocked by HOE 140 and was unaffected by in vitro capsaicin desensitization, indomethacin, MEN 10,376 or BPLPLP. FMLP had no motor effect on the resting ureter but when rhythmic background contractions were evoked by the addition of 100 nM endothelin 1, it produced a transient suppression of ureteral motility. This inhibitory effect was unchanged by in vitro capsaicin desensitization or HOE 140 while it was abolished by indomethacin or BPLPLP pretreatment. Both bradykinin and FMLP evoked the release of CGRP-like immunoreactivity in the renal pelvis. The effect of bradykinin but not that of FMLP was abolished by indomethacin. By contrast neither bradykinin nor FMLP did evoke a significant CGRP-LI release in the ureter. It is concluded that bradykinin and FMLP affect pyeloureteral motility through specific and independent pathways. The local motor responses produced by these chemical stimulants are independent from the release of sensory neuropeptides from capsaicin-sensitive primary afferent neurons. Direct neurochemical evidence was obtained for activation of capsaicin-sensitive primary afferents in the renal pelvis: such a mechanism could be involved in the genesis of ureteral pain whenever bradykinin or FMLP come into contact with sensory nerves in the pyeloureteral wall.
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PMID:Local motor responses to bradykinin and bacterial chemotactic peptide formyl-methionyl-leucyl-phenylalanine (FMLP) in the guinea-pig isolated renal pelvis and ureter. 133 50

Brown Norway kininogen-deficient rats had very low levels of plasma kininogens and lower levels of plasma prekallikrein, compared with those of normal rats of the same strain. Systolic blood pressure, determined by the tail-cuff method, of 5-week-old kininogen-deficient rats (106 +/- 0.4 mm Hg, n = 7) and the rate of systolic blood pressure increase with age were not different from those in normal rats. Weekly injections of deoxycorticosterone acetate (5 mg/kg s.c.) with 1% sodium chloride solution in drinking water after uninephrectomy at 7 weeks of age caused a gradual increase in the blood pressure of normal rats, reaching a plateau at 18 weeks of age, whereas that of deficient rats rose rapidly to 158 +/- 6 mm Hg 2 weeks after the start of treatment and continued to increase slightly, becoming significantly higher than normal rats at 8, 9, 10, 11, and 12 weeks of age (p less than 0.05 or 0.01). The levels of urinary prokallikrein and active kallikrein were slightly higher in deficient rats before deoxycorticosterone acetate-salt treatment but were not significantly increased after this treatment, whereas these levels in normal rats were increased 3.6- and 4.7-fold by this treatment. Urinary free kinin, collected from the ureter in untreated deficient rats, was below the detection limit. The plasma level of low molecular weight kininogen, the substrate of glandular kallikrein, was decreased in normal rats during the treatment. Continuous subcutaneous injection of aprotinin by an osmotic pump to normal rats induced significant increase in blood pressure. These results indicate that glandular kallikrein may play a suppressive role in deoxycorticosterone acetate-salt hypertension.
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PMID:Suppression of rat deoxycorticosterone-salt hypertension by kallikrein-kinin system. 171 Jun 5

1. Electrophysiological techniques were used to characterize responses of afferent fibers in pelvic nerve of adult, virgin female rats to mechanical or chemical stimulation of internal reproductive organs and to mechanical stimulation of other pelvic organs. 2. In an in vivo barbiturate-anesthetized preparation, pelvic nerve afferent fibers responded to a wide variety of mechanical stimulation applied to restricted regions of the vaginal canal, caudal uterus (body and cervix), bladder, ureter, colon, or anus. 3. Single-fiber mechanoreceptive fields were invariably confined to a single organ. Notably, responses could be evoked not only by gentle stimulation of the unit's receptive field directly on the organ itself, but also by stimulating the field indirectly with intense stimulation through the appropriate part of a contiguous organ. This innervation feature is consistent with the separability of pelvic organ functions under innocuous conditions but their confusion under noxious ones. 4. Receptive fields on the reproductive organs extended from the caudal edge of the vagina to the uterine body (including the cervix) but were most often located in the fornix (vaginocervical junction). Most units had no or low levels of spontaneous activity. Their responses to mechanical stimuli were usually slowly or moderately adapting and time-locked to the stimulus. 5. Fibers with vaginal receptive fields (including the fornix) responded best either to vaginal distension with a balloon or, more often, to a probe moving along the internal vaginal surface in a direction toward the cervix. They were observed most frequently during the proestrus stage of the rat's estrous cycle. These fibers, therefore, seem particularly suited for relaying information about stimuli that occur during mating. 6. Fibers with receptive fields on the uterine cervix and body responded best to static pressure and were observed less frequently than those with vaginal fields, regardless of estrous stage. They were, however, sensitized by hypoxia. In addition, irritation of the uterus increased the probability of observing them. These fibers, therefore, may exert their primary function during reproductive conditions different from those of virgin rats, such as parturition. 7. Response activity of most of the mechanoreceptive afferent fibers supplying reproductive organs increased as the stimulus intensity increased into the noxious range; i.e., into a range in which the stimulus momentarily produced ischemia at the stimulus site. In addition, in an in vitro preparation, pelvic nerve fibers responded in a dose-dependent manner to injections through the uterine artery of bradykinin (BRAD) as well as to other algesic chemicals, 5-hydroxytryptamine (5-HT) and KCl.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Functional properties of afferent fibers supplying reproductive and other pelvic organs in pelvic nerve of female rat. 231 44

The release of tachykinins from isolated slice preparations of the guinea-pig spinal cord and ureter was studied in vitro. Capsaicin (10 microM) caused release of substance P, neurokinin A and an eledoisin-like component from both the spinal cord and ureter. The release of tachykinins induced by capsaicin or potassium (60 mM) was calcium dependent. No detectable release of neurokinin B or neuropeptide K, an N-terminally extended form of neurokinin A, was induced by capsaicin. No detectable release of tachykinins could be demonstrated after exposure to agents which are known to activate C-fibre afferents, such as histamine, bradykinin, serotonin, prostaglandins E1, E2 or acetylcholine. Protein extravasation in the ureter, as determined by the Evans Blue extravasation technique was used as a functional correlate to the tachykinin release. Protein extravasation was induced in vivo by local intraluminal injections of capsaicin at several hundred-fold lower concentrations than those required to induce a detectable release of tachykinins in vitro. The difference may, however, partly depend on the experimental conditions and the detection limit of the tachykinin assay used. The protein extravasation response to capsaicin was absent after systemic capsaicin pretreatment, which causes a marked depletion of tachykinins in the ureter. In conclusion, capsaicin evokes release of several tachykinins from both central and peripheral endings of primary afferent neurons. The peptides released from sensory nerves in the periphery may induce effects such as protein extravasation and smooth muscle contraction.
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PMID:Capsaicin induced release of multiple tachykinins (substance P, neurokinin A and eledoisin-like material) from guinea-pig spinal cord and ureter. 243 50

We have localized high affinity [3H]bradykinin receptor binding sites by in vitro autoradiography in kidney, ureter, and bladder of the guinea pig. The peptide pharmacology of the binding sites corresponds to that of high affinity physiological bradykinin receptors previously described (Manning, D. C., R. Vavrek, J. M. Stewart, and S. H. Snyder. J. Pharmacol. Exp. Ther. 237:504-512, 1986). In the kidney, receptors are concentrated in the medulla with negligible binding in the cortex. Medullary receptors are localized to the interstitium just beneath the basal membrane of collecting tubule cells and between tubules. In the ureter and bladder, receptors are confined to the lamina propria just beneath the epithelial layer. Localizations in the kidney may relate to the diuretic and natriuretic actions of bradykinin. Ureteral and bladder receptors may be associated with a role of bradykinin in pain and inflammation.
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PMID:Bradykinin receptors localized by quantitative autoradiography in kidney, ureter, and bladder. 254 29

Like human kininogens-deficiency, the ureter urine of Brown Norway (B/N) Katholiek rat, a congenitally deficient strain in plasma high molecular weight (HMW)- and low molecular weight (LMW)-kininogen, showed no detectable kinin in the peptide fraction of gel chromatography, whereas normal ureter urine (B/N-Kitasato rat) expressed kinin in the peptide fraction, when assayed by bradykinin enzyme immunoassay (EIA). However there was immunoreactive substance in the higher molecular weight fraction in both strains of rat. The nature of this substance is not known, but it may give rise to a wrong estimate for kinin if rat urine is allowed to immunoassay directly, and peptide fraction of urine is not resolved into its components by gel chromatography. Kinin degrading activity in rat urine is so potent that kinin could be mostly degraded when stored in the bladder, since kinin was found in the peptide fraction of fresh ureter urine but not in that of bladder urine of the normal strain.
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PMID:Differentiation of kinin fractions in ureter urine and bladder urine of normal and kininogen-deficient rats. 268 78

Bradykinin (BK) causes vasodilation and increases free water and sodium excretion in the kidney and stimulates smooth muscle contraction in the ureter and bladder. Several proposed sites of action for BK include the renal medullary collecting duct, renal blood vessels and the ureter and bladder smooth muscle. This study employs 3H-BK autoradiography to localize the sites of BK action. 3H-BK binding sites in the kidney are localized in the medullary interstitium where BK may produce prostaglandins which mediate its blood flow, natriuretic and diuretic effects. 3H-BK binding sites in the ureter and bladder are localized in the lamina propria below the basal epithelial layer and absent over the muscle layers suggesting an indirect action on urinary tract smooth muscle.
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PMID:3H-bradykinin binding site localization in guinea pig urinary system. 288 Apr 81

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