UMLS:C0030193 - FACTA Search

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Query: UMLS:C0030193 (pain)
261,466 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The endogenous peptide bradykinin is found in plasma and inflammatory exudates and has been implicated as a chemical mediator of inflammatory pain and hyperalgesia. Two subtypes of bradykinin receptors, B1 and B2, have been described, and antagonists for the receptor subtypes have been synthesized. The bradykinin analogs [desArg9,Leu8]BK and DArg[Hyp3,DPhe7]BK have been reported to have antagonist activity at the B1 and B2 bradykinin receptors in smooth muscle, respectively. Behavioral studies in rats indicate that the bradykinin analogs can block the algesic effects of bradykinin. We wished to determine the effects of bradykinin and the bradykinin analogs (B1 and B2 analogs, respectively) on cutaneous nociceptors in the monkey. In addition, we wished to determine the type of bradykinin receptor that mediates the sensitizing effects of bradykinin. Recordings were made from single C-fiber and A-fiber nociceptive afferents (CMHs and AMHs) that innervated hairy skin. Heat sensitivity before and after the injections was determined with a heat test sequence consisting of stimuli that ranged, in 1 degree C increments, from 41 degrees to 49 degrees C. Intradermal injections of vehicle (neutral normal saline) failed to alter the heat response of CMHs. Bradykinin (10 nmol in 10 microliters) evoked activity in 6 of 10 CMHs and sensitized all the fibers to heat stimuli. After the bradykinin injection, the mean heat threshold of the CMHs decreased from 44 +/- 0.5 degrees to 42.7 +/- 0.5 degrees C (mean +/- SEM, p less than 0.02), and the total response to the heat test sequence increased by 87% (p less than 0.002). In a related psychophysical study in human volunteers, the same dose of bradykinin resulted in a comparable (115%) increase in ratings of pain (Manning et al., 1991). Bradykinin also evoked activity in 10 of 17 AMHs and sensitized 8 AMHs to heat stimuli. Bradykinin failed to alter the threshold for activation of CMHs to mechanical stimuli as measured by application of von Frey hairs to the receptive field. In contrast to bradykinin, intradermal injection of the B1 and B2 analogs (10 nmol in 10 microliters) evoked activity in 2 of 6 and 0 of 5 CMHs, respectively. A noteworthy finding was that both analogs enhanced the response of CMHs to heat stimuli by 50% (B1 analog, 1.5 +/- 0.1; B2 analog, 1.5 +/- 0.2). The B1 (n = 10) and B2 (n = 5) analogs did not evoke activity in any of the 15 AMHs tested.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:The effects of bradykinin and sequence-related analogs on the response properties of cutaneous nociceptors in monkeys. 132 2

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

The dramatic activities of bradykinin and related peptides as mediators of pain, inflammation and hypotension have been intensely studied for several decades. More recently, the involvement of bradykinin in regulation of ion transport by epithelia, hormone release from endocrine organs, energy metabolism, tissue growth, and leukocyte activation have become topics of study. Kininogen precursors, synthetic kallikreins, and degradative kininases have been characterized in detail with regard to catalytic mechanisms, physical structure and gene regulation; however, the actual receptors for bradykinin are still only poorly understood. This situation is caused by the lack of availability of potent, specific receptor antagonists. However, specific bradykinin receptor antagonists became available in 1985, and several very potent classes of agents are now available; also, the first bradykinin receptor has been cloned.
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PMID:Recent developments in the understanding of bradykinin receptors. 137 60

A cDNA encoding a functional bradykinin receptor was isolated from a rat uterus library by a clonal selection strategy using Xenopus laevis oocytes to assay for expression of bradykinin responses. The predicted protein is homologous to the seven transmembrane G protein-coupled superfamily of receptors. Bradykinin and its analogs stimulate a Cl- current oocytes expressing the receptor with the rank order of potency: bradykinin approximately Lys-bradykinin greater than [Tyr8]-bradykinin much greater than [Phe6]bradykinin. This is the rank order of potency observed for these compounds in competitive binding assays on soluble receptor from rat uterus. Des-Arg9-bradykinin (10 microM) elicits no response when applied to oocytes expressing the receptor; thus, the cDNA encodes a B2 type bradykinin receptor. [Thi5,8,DPhe7]bradykinin, where Thi is beta-(2-thienyl)-alanine, is a very weak partial agonist and inhibits the bradykinin-mediated ion flux, suggesting the cDNA encodes a smooth muscle, rather than a neuronal, B2 receptor subtype. Receptor message has a distribution consistent with previous reports of bradykinin function and/or binding in several tissues and is found in rat uterus, vas deferens, kidney, lung, heart, ileum, testis, and brain. Receptor subtypes are a possibility because several tissues contain two or three message species (4.0, 5.7, and 6.5 kilobases). Southern blot high-stringency analysis demonstrated that the rat, guinea pig, and human genomes contain a single gene. As bradykinin is a key mediator of pain, knowledge of the primary structure of this receptor will allow a molecular understanding of the receptor and aid the design of antagonists for pain relief.
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PMID:Expression cloning of a rat B2 bradykinin receptor. 171 75

Bradykinin and its active metabolites are produced at the sites of their actions by kallikreins. They potently elicit a variety of biological effects: hypotension, bronchoconstriction, gut and uterine contraction, epithelial secretion in airway, gut, and exocrine glands, vascular permeability, pain, connective tissue proliferation, and eicosanoid formation. These effects are mediated by at least two broad classes of receptors. The most common is the B2 subtype. The Stewart and Vavrek peptides characterized by a DPhe7 substitution have provided powerful tools for study of bradykinin's actions by competitively and specifically blocking bradykinin B2 receptors. The significance of kinins in certain human diseases is being explored using these new tools and potential therapeutic agents. At present, human clinical trials are underway to test the usefulness of bradykinin receptor antagonists in the symptoms of the common cold and in the pain associated with severe burns. Trials for use in asthma will be initiated in 1990.
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PMID:Bradykinin receptor antagonists. 215 7

Bradykinin is the prime initiator of pain and the key initial activator of the inflammatory response at the site of tissue injury. The subsequent transfer of nociceptive information (pain sensation) into the central nervous system is then mediated via afferent type C dorsal root ganglion neurons. A recently developed hybrid cell line, F-11, shows many qualities characteristic of these pain-sensitive cells. In these neuronal hybrids, we have found that bradykinin induces sequential elevation in the concentrations of several second messengers involved in neuronal activation, including inositol trisphosphate (6.5-fold), intracellular calcium (2.7-fold), and cyclic GMP (20.5-fold). Importantly, the production of these second messengers is potently inhibited by several novel bradykinin antagonists that possess no intrinsic agonist activity. The same relative rank order of potency of inhibition of bradykinin-induced second messenger production was achieved in the inositol trisphosphate, calcium, and cyclic GMP assay systems, suggesting strongly that all three messenger systems are being activated by the same bradykinin receptor. The most potent antagonist was D-Arg0-Hyp3-Thi5,8-D-Phe7-bradykinin, which inhibited in a competitive manner, with pA2 values, upon Schild plot analysis, in the nanomolar range. These potent bradykinin antagonists may be useful in the characterization of bradykinin receptors and in the clinical management of pain and inflammation.
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PMID:Bradykinin analogs antagonize bradykinin-induced second messenger production in a sensory neuron cell line. 253 66

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

Bradykinin and its active metabolites, produced by kallikreins at their sites of action, potently elicit a variety of biological effects: hypotension, bronchoconstriction, gut and uterine contraction, epithelial secretion in airway, gut, and exocrine glands, vascular permeability, pain, connective tissue proliferation, cytokine release, and eicosanoid formation. These effects are mediated by at least two broad classes of receptors. The most common is the B2 subtype. The availability of competitive antagonists of B2 receptors has provided powerful tools for the study of bradykinin's actions. The significance of kinins in certain human diseases is being explored by using these agents as potential therapeutic agents. Human clinical trials are under way to test the usefulness of bradykinin receptor antagonists to treat symptoms of the common cold and the pain associated with severe burns. Trials are also being comtemplated for use in treatment of asthma.
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PMID:Antagonists of B2 bradykinin receptors. 254 96

Bradykinin is a nine amino acid peptide of the kinin family believed to play a role in pain mediation and in the regulation of blood pressure, fluid balance and smooth muscle contraction. Here we demonstrate that bradykinin is also a potent mitogen for a mutant Ha-ras-transfected cell line, Rat 13. The Rat 13 cells display two binding sites for bradykinin: a moderate number (52,000) of high affinity sites (Kd = 4.9 nM) co-exist with a much smaller number (1100) of very high-affinity sites (Kd = 2.7 pM). Ligand binding stimulates mitogenesis through the lower affinity receptors, which are classified as B2. These receptors are down-regulated in response to ligand. In contrast, Rat 1 cells (the cell line from which Rat 13 was derived) have only 4000 receptors per cell in total and respond weakly to bradykinin as a mitogen. Thus, expression of a mutant ras protein in Rat 13 cells increases their expression of the bradykinin receptor and their sensitivity to ligand stimulation of mitogenesis. Additional binding studies demonstrate that human A431 epithelial cells and Swiss mouse 3T3 fibroblasts also possess high-affinity sites for bradykinin.
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PMID:Bradykinin receptor number and sensitivity to ligand stimulation of mitogenesis is increased by expression of a mutant ras oncogene. 256 Nov 28

Autoradiographic studies localize [3H]bradykinin receptor binding sites to the substantia gelatinosa, dorsal root, and a subset of small cells in both the dorsal root and trigeminal ganglia of the guinea pig. [3H]Bradykinin labeling is also observed over myocardial/coronary visceral afferent fibers. The localization of [3H]bradykinin receptors to nociceptive pathways supports a role for bradykinin in pain mediation. Several bradykinin antagonists block bradykinin-induced acute vascular pain in the rat. The bradykinin antagonists also relieve bradykinin- and urate-induced hyperalgesia in the rat paw. These results indicate that bradykinin is a physiologic mediator of pain and that bradykinin antagonists have analgesic activity in both acute and chronic pain models.
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PMID:Bradykinin as a pain mediator: receptors are localized to sensory neurons, and antagonists have analgesic actions. 289 57

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