Characterization of bradykinin receptors in canine cultured corneal epithelial cells: Pharmacological and functional studies

The pharmacological properties of bradykinin (BK) receptors were characterized in canine cultured corneal epithelial cells (CECs) using [(3)H]-BK as a radioligand. Analysis of binding isotherms gave an apparent equilibrium dissociation constant of 0.34 +/- 0.07 nM and a maximum receptor density of 179 +/- 23 fmol/mg protein. Neither a B(1) receptor-selective agonist (des-Arg(9)-BK) nor antagonist ([Leu(8), des-Arg(9)]-BK) significantly inhibited [(3)H]-BK binding to CECs, thus excluding the presence of B(1) receptors in canine CECs. The specific binding of [(3)H]-BK to CECs was inhibited by B(2) receptor-selective agonists (BK and kallidin) and antagonists (Hoe 140 and [D-Arg(0), Hyp(3), Thi(5,8), D-Phe(7)]-BK), with a best fit using a one-binding-site model. The order of potency for the inhibition of [(3)H]-BK binding was BK = Hoe 140 > kallidin > [D-Arg(0), Hyp(3), Thi(5,8), D-Phe(7)]-BK. Stimulation of CECs by BK produced a concentration-dependent accumulation of inositol phosphates (IP) and an initial transient peak of intracellular Ca(2+). B(2) receptor-selective antagonist ([D-Arg(0), Hyp(3), Thi(5,8), D-Phe(7)]-BK) significantly antagonized the BK-induced responses with dissociation constants of 6.0-6.1. Pretreatment of CECs with pertussis toxin (PTX) or cholera toxin did not alter the BK-induced IP accumulation. Incubation of CECs in the absence of external Ca(2+) led to a significant attenuation of the IP accumulation induced by BK. These results demonstrate that BK directly stimulates phospholipase C-mediated signal transduction through BK B(2) receptors via a PTX-insensitive G protein in canine CECs. This effect may function as the transducing mechanism for BK-mediated cellular responses.     

Identification of B2 bradykinin binding sites in the guinea pig nasal turbinate

Specific high affinity BK binding sites in the nasal turbinate of the guinea pig have been demonstrated. Specific [3H]BK binding (10-330 pM) was saturable, and nonlinear least squares analysis indicated the presence of a high affinity binding site with a Kd value of 60 (50-78) pM and a Bmax value of 13.1 = 2.0 fmol/mg protein. In inhibition experiments, D-Phe7-BK (a B2 antagonist) inhibited [3H]BK binding with a Ki value of 23 nM, while des-Arg9[Leu8]-BK (a B1 antagonist) had no effect up to a concentration of 10 microM. These studies indicate the presence of B2 BK receptors in the guinea pig nasal turbinate.     

Characterization of bradykinin receptors in a human osteoblastic cell line.

Bradykinin receptor subtypes linked to prostaglandin release have been assessed in a human osteosarcoma cell line with osteoblastic phenotype (MG-63). Bradykinin (BK; 1 micromol/l) caused a burst of prostaglandin E(2) release that was maximal at 10 min. When the effect on the burst of PGE(2) and PGI(2) release by a variety of kinins and kinin analogues was assessed, the following rank order of response was found: Lys-BK>BK> or =Met-Lys-BK>Ile-Ser-BK>[Tyr(8)]-BK> or =[Hyp(3)]-BK>des-Arg(9)-BK=des-Arg(10)-Lys-BK=des-Arg(1)-BK, [Thi(5,8),D-Phe(7)]-BK=Sar-[D-Phe(8)]-des-Arg(9)-BK=Tyr-Gly-Lys-Aca-Lys-des-Arg(9)-BK. The rapid effect of BK on PGE(2) and PGI(2) release was unaffected by des-Arg(9)-[Leu(8)]-BK, des-Arg(10)-[Leu(9)]-Lys-BK and des-Arg(10)-[Hoe 140], but strongly inhibited by Hoe 140 in a concentration-dependent manner. When the incubation time was extended to 48 h, it was found that des-Arg(9)-BK and des-Arg(10)-Lys-BK caused a delayed enhancement of the formation of PGE(2). When PGE(2) formation was assessed in 24-h experiments, the following rank order of response was obtained: Tyr-Gly-Lys-Aca-Lys-des-Arg(9)-BK>BK=Lys-BK>des-Arg(10)-Lys-BK>Sar[D-Phe(8)]-des-Arg(9)-BK>des-Arg(9)-BK. The stimulatory effect of BK at 24 h was unaffected by des-Arg(9)-[Leu(8)]-BK, des-Arg(10)-[Leu(9)]-Lys-BK and des-Arg(10)-[Hoe 140] but inhibited by Hoe 140. The stimulatory effect of des-Arg(10)-Lys-BK in 24-h experiments was inhibited by des-Arg(9)-[Leu(8)]-BK, des-Arg(10)-[Leu(9)]-Lys-BK and des-Arg(10)-[Hoe 140]. Similarly, the stimulatory effects of Sar[D-Phe(8)]-des-Arg(9)-BK and Tyr-Gly-Lys-Aca-Lys-des-Arg(9)-BK was inhibited by des-Arg(10)-[Hoe 140].The following rank order of response was seen for inhibition of [3H]-BK binding to MG-63 cells: Lys-BK=BK=Hoe 140>des-Arg(10)-Hoe 140=des-Arg(10)-Lys-BK=des-Arg(9)-BK=Tyr-Gly-Lys-Aca-Lys-des-Arg(9)-BK. Using [3H]-des-Arg(10)-Lys-BK, the following rank order of response for inhibition of binding was seen: des-Arg(10)-Lys-BK=Tyr-Gly-Lys-Aca-Lys-des-Arg(9)-BK>des-Arg(10)-Hoe 140>des-Arg(9)-BK=Lys-BK=BK=Hoe 140. MG-63 cells expressed mRNAs for BK B1 and B2 receptors, as assessed by RT-PCR.These data indicate that the human osteoblastic osteosarcoma cell line MG-63 is equipped with functional BK receptors of both B1 and B2 receptor subtypes. The B2 receptors are linked to a burst of prostanoid release, whereas the B1 receptors mediate a delayed prostaglandin response, indicating that the two receptor subtypes are linked to different signal transducing mechanisms or that the molecular mechanisms involved in prostaglandin release are different.     

The role of kinin B1 in the plasma extravasation of carrageenin-induced pleurisy

The role of des-Arg9-bradykinin (des-Arg9-BK) and kinin B1 receptor in the plasma extravasation of rat carrageenin-induced pleurisy was investigated employing B1 receptor agonist and antagonists and kininogen-deficient rats. Expression of the B1 receptor mRNA in pleura was induced from 3 to 5 h after the injection of carrageenin into the pleural cavity of Sprague-Dawley rats. Exogenous injection of des-Arg9-BK into the pleural cavity provoked a significant increase in plasma extravasation in 5 h carrageenin-induced pleurisy, but not in 20 min kaolin-induced pleurisy. The level of immunoreactive des-Arg9-BK in the exudate of 5 h carrageenin-induced pleurisy was higher than that of bradykinin (BK). Administration of the B1 receptor antagonists, des-Arg9-[Leu8]-BK or des-Arg9-D-Arg-[Hyp3, Thi5, D-Tic7,Oic8]-BK significantly reduced the exudation rate. However, intrapleural administration of des-Arg9-BK to plasma kininogen-deficient. Brown Norway-Katholiek rats did not result in a further increase in the plasma extravasation. In conclusion, endogenously generated des-Arg9-BK could contribute to the plasma extravasation in carrageenin-induced pleurisy via mediation of the inducible B1 receptor.     

Epicardial application of bradykinin elicits pressor effects and tachycardia in guinea pigs. Possible mechanisms

Topical application of bradykinin (BK) to the surface of the left ventricle (epicardial application) of anesthetized guinea pigs elicited dose-dependent pressor effects and tachycardia. The pressor effect of epicardial BK was reduced by prior systemic treatment of animals with pentolinium or a combination of phentolamine and propranolol, but it was not affected by acute bilateral vagotomy or systemic administration of atropine, indomethacin, naloxone or a combination of mepyramine and cimetidine. The tachycardia caused by epicardial BK was not affected by any of the aforementioned drugs or by section of the vagi. Both the pressor effect and tachycardia evoked by epicardial BK were abolished by prior epicardial application of lidocaine, a local anesthetic, or by chronic systemic capsaicin treatment. These results suggest that the pressor effect of epicardial BK is partially reflex in nature and likely to result from the stimulation by BK of cardiac sympathetic, capsaicin-sensitive primary afferents, whereas the tachycardia caused by epicardial BK could be mediated by an intracardiac release of (a) cardioaccelerating substance(s) from cardiac, capsaicin-sensitive sensory nerve fibers and/or terminals.     

Bradykinin suppresses endothelin-induced contraction of coronary artery through its B2-receptor on the endothelium.

Bradykinin (BK), a powerful vasodilating peptide, has been known to be one of the factors regulating vascular contractility mainly through its action on the endothelium. The effects of BK on vascular contraction induced by endothelin-1 (ET-1), a potent vasoconstrictor peptide produced in endothelium, were investigated in vitro using the canine coronary ringed artery. ET-1 at concentrations of 10(-10) to 10(-7) M induced strong and persistent contraction dose-dependently. The ET-1-induced contraction was inhibited by BK at concentrations of 10(-7) and 10(-6) M only in the presence of endothelium. A B1-receptor agonist (des-Arg9-BK) and a B1-receptor antagonist (des-Arg9-[Leu8]-BK) did not affect these effects of BK, whereas a B2-receptor antagonist ([D-Arg0,Hyp3,Thi5,8,D-Phe7]-BK) inhibited the effect of BK on the ET-1-induced contraction. These results indicate that BK may be a potent counter-factor for the ET-1-induced coronary vasoconstriction through its B2-receptors on the endothelium.     

Pharmacological and biochemical characterization of bradykinin B2 receptors in the mouse colon: influence of the TNBS-induced colitis

This study analyzed bradykinin (BK)-evoked contractile responses in the mouse colon under normal and inflammatory conditions. BK and the preferential B(2) receptor agonists Hyp(3)-BK, Lys-BK, Met-Lys-BK and Tyr(8)-BK produced a marked and concentration-related contraction of the normal mouse colon, whereas the selective B(1) receptor agonist des-Arg(9)-BK had no effect. BK-induced contraction was concentration-dependently antagonized (in a non-competitive manner) by both B(2) receptor antagonists Hoe 140 and FR173657, but not the B(1) receptor antagonist des-Arg(9)-[Leu(8)]-BK. Analysis of the possible mechanisms implicated in the contractile responses of BK in the mouse colon revealed the involvement of the neural release of acetylcholine, the activation of L- and N-type voltage-gated calcium channels, and the release of neuropeptides, prostanoids and leukotrienes. The contraction induced by BK was markedly increased in preparations obtained from TNBS-treated mice. The up-regulation of B(2) receptors following the induction of colitis was confirmed with binding studies using [(3)H]-BK, which revealed a marked increase in B(2) receptor densities, without alterations of affinity. We provide convincing evidence on the relevance of B(2) receptors in the mouse colon under normal conditions, as well as under an inflammatory profile of colitis. Selective B(2) receptor antagonists might well represent rational therapeutic options for treating inflammatory bowel diseases.     

Metabolism of bradykinin analogs by angiotensin I converting enzyme and carboxypeptidase N.

Bradykinin (BK) analogs such as Lys-Lys-BK, des-Arg9-BK and [Leu8]des-Arg9-BK were poor substrates for angiotensin I converting enzyme (ACE), and analogs containing D-Phe7 residues, or a pseudopeptide C-terminal bond, were completely resistant. However, many of these analogs were metabolized by carboxypeptidase N (CPN) including Lys-Lys-BK, [Tyr8(OMe)]BK and D-Phe7-containing analogs, with Km and Vmax values comparable to those for BK. The only analogs completely resistant to both ACE and CPN were the B2 agonist [Phe8 psi(CH2NH)Arg9]BK, the B2 agonist D-Arg[Hyp3,D-Phe7,Phe8 psi(CH2NH)Arg9]BK, and the B1 agonist [D-Phe8]des-Arg9-BK. These data indicate an important role for plasma CPN and vascular CPN-like activity in the metabolism of the widely used ACE-resistant/D-Phe7-containing antagonists of B2 kinin receptors.     

Cardiovascular actions of kinins in the rabbit.

The hypotensive action of bradykinin (BK) and congeners was measured in anesthetized rabbits by administering the peptides intravenously and intraarterially in order to evaluate their pulmonary inactivation. A systematic study of the distribution of receptors for BK in the cardiovascular system of the rabbit was approached: (a) by measuring the myotropic effects of several peptides related to BK in strips of large arteries and veins; (b) by recording the changes of tension and rate of isolated atria; and (c) by evaluating the changes of perfusion pressure in isolated hearts, kidneys, and ears. This investigation was extended to strips of aortae of various mammals and to isolated atria of guinea pigs, for comparison. Receptors for BK were classified into two main types, B1 and B2, using the order of potency of these agonists [Tyr(Me)8]-BK, BK, and [des-Arg9]-BK, and an antagonist, specific and competitive for the B1 receptors, the octapeptide [Leu-OMe8,des-Arg9]-BK. The results obtained in this study indicate that the complex cardiovascular effect of BK in vivo may result from direct actions on vascular smooth muscles, presumably mediated by at least two types of receptors, as well as from the release of endogenous prostaglandins. BK and congeners exert a direct action on vascular smooth muscle by stimulating specific receptors both of the B1 type (in the aorta, the large arteries, and the mesenteric vein) and of the B2 type (in the jugular vein); and these vascular tissues provide useful preparations for pharmacological studies of bradykinins. Isolated organs perfused through their main arteries with physiological medium respond to BK by an increase of perfusion pressure (vasoconstriction in isolated ears and kidneys) or by a decrease (vasodilation in the rabbit heart). The vascular effects of BK in the heart and the kidney depend in part on the release of endogenous prostaglandins and on the activation of receptors that appear to be of the B2 type. Like other endogenous hypotensive agents, BK appears to reduce the tonus of the peripheral vessels, while contracting large arteries and veins. The results obtained in vitro are discussed with respect to the hypotensive effect in vivo and to the role of kinins in inflammation and oedema.     

Bradykinin induced a positive chronotropic effect via stimulation of T- and L-type calcium currents in heart cells

Using Fluo-3 calcium dye confocal microscopy and spontaneously contracting embryonic chick heart cells, bradykinin (10(-10) M) was found to induce positive chronotropic effects by increasing the frequency of the transient increase of cytosolic and nuclear free Ca2+. Pretreatment of the cells with either B1 or B2 receptor antagonists (R126 and R817, respectively) completely prevented bradykinin (BK) induced positive chronotropic effects on spontaneously contracting single heart cells. Using the whole-cell voltage clamp technique and ionic substitution to separate the different ionic current species, our results showed that BK (10(-6) M) had no effect on fast Na+ inward current and delayed outward potassium current. However, both L- and T-type Ca2+ currents were found to be increased by BK in a dose-dependent manner (10(-10)-10(-7) M). The effects of BK on T- and L-type Ca2+ currents were partially blocked by the B1 receptor antagonist [Leu8]des-Arg9-BK (R592) (10(-7) M) and completely reversed by the B2 receptor antagonist D-Arg[Hyp3,D-Phe7,Leu8]BK (R-588) (10(-7) M) or pretreatment with pertussis toxin (PTX). These results demonstrate that BK induced a positive chronotropic effect via stimulation of T- and L-type Ca2+ currents in heart cells mainly via stimulation of B2 receptor coupled to PTX-sensitive G-proteins. The increase of both types of Ca2+ current by BK in heart cells may explain the positive inotropic and chronotropic effects of this hormone.     

Bradykinin B2 receptors mediate pulmonary sympathetic afferents induced reflexes in rabbits

Endogenous bradykinin (BK) is an established mediator of pulmonary inflammation, yet its role in lung disease is unclear. In the rabbit, injecting BK into the lung parenchyma elicits reflex hyperpnea, tachypnea, hypotension, and bradycardia by stimulating pulmonary sympathetic afferents. To further explore bradykinin effects, breathing pattern (phrenic nerve and abdominal muscle activities) and hemodynamics (blood pressure and heart rate) were examined in anesthetized, open-chest, and mechanically ventilated rabbits. Three receptor agonists [bradykinin, selective B(1) (des-Arg(9)-BK), and selective B(2) (Tyr(8)-BK)], as well as three B(2) receptor antagonists, B6029 (N alpha-Adamantaneacetyl)-Bradykinin, B(1)650 (D-Arg-[Hyp(3), Thi(5,8), D-Phe(7)]-Bradykinin, or Hoe-140 (D-Arg-[Hyp(3), Thi(5), D-Tic(7), Oic(8)] bradykinin), were used to identify the responsible receptor subtype. In both intact and vagotomized rabbits, injecting BK or a selective B(2) agonist into the lung elicited similar cardiopulmonary responses. These reflex responses were greatly attenuated or blocked by pre-injecting B(2) antagonists into the right atrium or into the lung parenchyma. In contrast, the B(1) agonist elicited fewer cardiopulmonary effects in intact rabbits and had no effect in vagotomized rabbits. We conclude that BK stimulates pulmonary sympathetic afferents [Soukhova, G., Wang, Y., Ahmed, M., Walker, J., Yu, J., 2003. Bradykinin stimulates respiratory drive by activating pulmonary sympathetic afferents in the rabbit. J. Appl. Physiol. 95, 241-249.; Wang, Y., Soukhova, G., Proctor, M., Walker, J., Yu, J., 2003. Bradykinin causes hypotension by activating pulmonary sympathetic afferents in the rabbit. J. Appl. Physiol. 95, 233-240.], eliciting a characteristic cardiopulmonary reflex via B(2) receptors.     

Characterization of [3H]bradykinin binding sites in guinea-pig central nervous system: possible existence of B2 subtypes

Specific [3H]bradykinin(BK) binding was investigated in membranes from guinea-pig brain. In kinetic experiments, specific [3H]BK binding (100 pM) reached equilibrium within 15 min at 25 degrees C (k + 1 = 1.40 nM-1min-1) and the binding was reversed by the addition of 1 microM BK (k-1 = 0.069 min-1). The presence of a high affinity BK binding site was also revealed in the guinea-pig brain by equilibrium saturation studies with a Kd value of 75 pM and a Bmax value of 4.9 +/- 0.9 fmol/mg protein. In inhibition experiments, the B2 antagonists (D-Phe7-BK and Thi5,8,D-Phe7-BK) inhibited [3H]BK binding, but not the B1 antagonist (des-Arg9[Leu8]-BK). D-Arg[Hyp3, D-Phe7]BK (B4801) showed a pseudo Hill coefficient of less than one. The KH and KL values are 1.8 and 94 nM. The regional distribution study shows the highest density of BK binding sites in the pons + medulla oblongata and the spinal cord, a moderate density in the cerebral cortex and hippocampus, and a low density in other brain regions. These data support the presence of B2 BK receptors in the guinea-pig brain and spinal cord and suggest the existence of B2 subtypes in the brain. The presence of these receptors suggests that BK acts as a neurotransmitter or a neuromodulator in these tissues.     

Effect of initial blood pressure level on cardiovascular reflexes caused by intraperitoneal neurotensin

The reflex changes of systemic blood pressure (BP) and heart rate (HR) induced by intraperitoneal (IP) injections of neurotensin-containing solutions (NTCS) were measured in anesthetized guinea pigs whose BP was raised up by intravenous (IV) infusions of either angiotensin II (ATII) or noradrenaline (NA), and compared to those observed in control animals (i.e., saline-infused guinea pigs with low initial BP level). The amplitudes of reflex pressor and tachycardic responses to IP NTCS were either not affected or reduced in animals whose BP was raised with ATII or NA. However, no hypotensive effect was observed, following IP NTCS, in any of the animals tested. The results indicate that high initial BP levels tend to attenuate the reflex increases of BP and HR caused by IP NTCS, the level of inhibition being largely determined by the type of vasopressor agent utilized to raise up the BP. They also suggest that the initial BP level is unlikely to be an important factor in determining whether the activation of capsaicin-sensitive visceral afferents will produce hypotensive or hypertensive effects in this animal model.     

Prostaglandin involvement in lung C-fiber activation by substance P in guinea pigs.

Airway hyperresponsiveness is a cardinal feature of asthma. Lung C-fiber activation induces central and local defense reflexes that may contribute to airway hyperresponsiveness. Initial studies show that substance P (SP) activates C fibers even though it is produced and released by these same C fibers. SP may induce release of other endogenous mediators. Bradykinin (BK) is an endogenous mediator that activates C fibers. The hypothesis was tested that SP activates C fibers via BK release. Guinea pigs were anesthetized, and C-fiber activity (FA), pulmonary insufflation pressure (PIP), heart rate, and arterial blood pressure were monitored before and after intravenous injection of capsaicin (Cap), SP, and BK. Identical agonist challenges were repeated after infusion of an antagonist cocktail of des-Arg9-[Leu8]-BK (10(-3) M, B1 antagonist), and HOE-140 (10(-4) M, B2 antagonist). After antagonist administration, BK increased neither PIP nor FA. Increases in neither PIP nor FA were attenuated after Cap or SP challenge. In a second series of experiments, Cap and SP were injected before and after infusion of indomethacin (1 mg/kg iv) to determine whether either agent activates C fibers through release of arachidonic acid metabolites. Indomethacin administration decreased the effect of SP challenge on FA but not PIP. The effect of Cap on FA or PIP was not altered by indomethacin. In subsequent experiments, C fibers were activated by prostaglandin E2 and F2alpha. Therefore, exogenously applied SP stimulates an indomethacin-sensitive pathway leading to C-fiber activation.     

Receptors for bradykinin and kallidin.

In order to establish if bradykinin (BK) and Lys-bradykinin (Lys-BK), alias kallidin, act on the same or on different receptors, experiments were performed on strips of cat terminal ileum and of rabbit aorta. The first preparation contains receptor B2 and the second has the newly identified receptor B1. The criterion used for establishing the identity of receptors for BK and Lys-BK in the cat ileum (receptor B2) was desensitization, while for the rabbit aorta (receptor B1) we measured the apparent affinity (pA2 value) of a competitive and specific inhibitor of BK, [Leu-OMe3,des-Arg9]-BK. Since cat ileum desensitized with BK or Lys-BK shows a significant decrease or a complete disappearance of the response to the other agent, while maintaining full sensitivity for histamine, and since the pA2 values of [Leu-OMe8,des-Arg9]-BK against BK and Lys-BK are identical in the rabbit aorta, we conclude that the two kinins act on the same types of receptors.     

Kinin B1 receptor-mediated motor responses in normal or inflamed rat urinary bladder in vivo

The rat urinary bladder is one of the few in vivo preparations in which kinin B1 receptor-mediated contractile responses have been described, but the nature (local or reflex) of these responses has not been characterized. We have investigated the motor effects of i.v. or topical (onto the bladder serosa) administration of the selective kinin B1 receptor agonist [des-Arg9]-bradykinin ([des-Arg9]-BK) in the normal or inflamed (cyclophosphamide-induced) urinary bladder in urethane-anaesthetized rats. In both normal and inflamed bladders [des-Arg9]-BK produced a tonic contraction of low amplitude (< 15 mmHg) with phasic contractions of high amplitude (> or = 15 mmHg) superimposed (micturition reflex contractions). In inflamed bladders, the response to [des-Arg9]-BK was more prominent than in controls. Similar observations were made after the topical administration of [des-Arg9]-BK. In order to evaluate any time-dependency in the expression of B1 receptor-mediated bladder responses, [des-Arg9]-BK was administered in separate groups of control animals at 30 and 240 min after the completion of surgical procedures required for set-up of the preparation: no bladder contraction was detected at 30 min whereas both local and reflex contractions could be elicited by [des-Arg9]-BK at 240 min after the set up. In ganglionectomized rats, the response to [des-Arg9]-BK or the selective tachykinin NK2 receptor agonist [betaAla8]NKA(4-10) was evaluated at 30 and 240 min after the set up in inflamed or in control animals. The response to [des-Arg9]-BK was greater after inflammation although a time-dependent increase was evident in both groups; in contrast, the response to [betaAla8]NKA(4-10) was similar in both groups and remained constant over the observation period. After induction of inflammation, the tonic contraction induced by [des-Arg9]-BK in ganglionectomized rats was dose-dependently reduced by the kinin B1 receptor antagonist [desArg10]Hoe 140. The contractile response (number of micturition reflex contractions) induced by [des-Arg9]-BK in normal rats with intact pelvic nerves at 240 min from the set up was not changed after the administration of the selective B2 receptor antagonist Hoe 140. These results indicate that stimulation of bladder kinin B1 receptors evokes a local, tonic-type contraction with reflex contractions superimposed in both normal and inflamed bladders, but in the latter situation the motor responses are magnified.     

Mitogenic effect of bradykinin and of des-Arg9-bradykinin on cultured fibroblasts

Bradykinin (BK) and its fragment des-Arg9-BK failed to stimulate thymidine incorporation in all but one observed fibroblast cultures derived from human amniotic fluid or rabbit dermis. The rabbit dermis fibroblast line designated R51 acquired the capacity to increase its DNA synthesis in response to kinins after several weeks in culture. It was more sensitive to des-Arg9-BK than to BK and the effect of both peptides was antagonized by the analog Leu8, des-Arg9-BK; these features are shared with certain smooth muscle preparations responsive to kinins such as the rabbit aorta. Recently isolated rabbit dermis or human amniotic fibroblasts could not be made responsive to kinins by pre-incubating them with bacterial lipopolysaccharide. The line R51 released more PGE2 than baseline when stimulated with BK or des-Arg9-BK at low concentrations; it was also doubling faster than recently isolated cells of similar origin.     

B2 receptor-mediated dual effect of bradykinin on proximal tubule Na+ -ATPase: sequential activation of the phosphoinositide-specific phospholipase Cbeta/protein kinase C and Ca2+ -independent phospholipase A2 pathways

In a previous paper we showed that bradykinin (BK), interacting with its B2 receptor, inhibits proximal tubule Na+ -ATPase activity but does not change (Na+ +K+)ATPase activity. The aim of this paper was to investigate the molecular mechanisms involved in B2-mediated modulation of proximal tubule Na+ -ATPase by BK. To abolish B1 receptor-mediated effects, all experiments were carried out in the presence of (Arg-Pro-Pro-Gly-Phe-Ser-Pro-Leu), des-Arg9-[Leu8]-BK (DALBK), a specific antagonist of B1 receptor. A dual effect on the Na+ -ATPase activity through the B2 receptor was found: short incubation times (1-10 min) stimulate the enzyme activity; long incubation times (10-60 min) inhibit it. The stimulatory effect of BK is mediated by activation of phosphoinositide-specific phospholipase C beta (PI-PLCbeta)/protein kinase C (PKC); its inhibitory action is mediated by Ca2+ -independent phospholipase A2 (iPLA2). Prior activation of the PI-PLCbeta/PKC pathway is required to activate the iPLA2-mediated inhibitory phase. These results reveal a new mechanism by which BK can modulate renal sodium excretion: coupling between B2 receptor and activation of membrane-associated iPLA2.     

Bradykinin-bradykinin receptor (B1R) signalling is involved in the blood–brain barrier disruption in moyamoya disease

Moyamoya disease (MMD) is a rare disorder of the cerebrovascular system. It is a steno-occlusive disease that involves angiogenesis and blood–brain barrier (BBB) disruption. Bradykinin (BK), its metabolite des-Arg9-BK, and receptor (B1R) affect angiogenesis and BBB integrity. In this study, we aimed to investigate the changes in BK, B1R and des-Arg9-BK levels in the serum and brain tissues of patients with MMD and explore the underlying mechanism of these markers in MMD. We obtained the serum samples and superficial temporal artery (STA) tissue of patients with MMD from the Department of Neurosurgery of the Jining First People's Hospital. First, we measured BK, des-Arg9-BK and B1R levels in the serum of patients by means of ELISA. Next, we performed immunofluorescence to determine B1R expression in STA tissues. Finally, we determined the underlying mechanism through Western blot, angiogenesis assay, immunofluorescence, transendothelial electrical resistance and transcytosis assays. Our results demonstrated a significant increase in the BK, des-Arg9-BK and B1R levels in the serum of patients with MMD compared to healthy controls. Furthermore, an increase in the B1R expression level was observed in the STA tissues of patients with MMD. BK and des-Arg9-BK could promote the migratory and proliferative abilities of bEnd.3 cells and inhibited the formation of bEnd.3 cell tubes. In vitro BBB model showed that BK and des-Arg9-BK could reduce claudin-5, ZO-1 and occluding expression and BBB disruption. To the best of our knowledge, our results show an increase in BK and B1R levels in the serum and STA tissues of patients with MMD. BK and Des-Arg9-BK could inhibit angiogenesis, promote migratory and proliferative capacities of cells, and disrupt BBB integrity. Therefore, regulating BK, des-Arg9-BK and B1R levels in the serum and the brain could be potential strategies for treating patients with MMD.     

Bradykinin and its receptors in non-mammalian vertebrates

The generation of bradykinin (BK) in blood by the action of the kallikrein-kinin system has been studied intensively in mammals but the system has received relatively little attention in non-mammalian vertebrates. The plasma of crocodilians and Testudines (turtles and tortoises) contains all the components of the kallikrein-kinin system found in mammals (prekallikrein activator, prekallikrein, kininogen, and kininases) and activation results in generation of [Thr6]-BK. Plasma of birds and snakes probably lacks a prekallikrein activator analogous to mammalian Factor XII but treatment with exogenous proteases (pig pancreatic kallikrein and/or trypsin) generates [Thr6, Leu8]-BK (chicken), [Ala1, Thr6]-BK (python) and [Val1, Thr6]-BK (colubrid snakes). The skins of certain frogs, particularly of the genus Rana, contain very high concentrations of BK-related peptides but their pathway of biosynthesis involves the action of cellular endoproteinase(s) cleaving at the site of single arginyl residues rather than by the action of the kallikrein-kinin system. Evidence for a prekallikrein activator in fish plasma is lacking but treatment with exogenous proteases generates [Arg0, Trp5, Leu8]-BK (trout and cod), [Trp5]-BK (bowfin and gar), [Met1, Met5]-BK (sturgeon). The cardiovascular actions and effects upon gastrointestinal smooth muscle of these peptides in their species of origin differ markedly. For example, intra-arterial injections of the native BK peptides into unanesthetized fish produce transient hypertension in the cod, complex depressor and pressor responses in the trout and bowfin and hypotension in the sturgeon. Pharmacological studies in snakes and fish and with the recombinantally expressed chicken BK receptor have demonstrated that the BK receptors in the tissues of non-mammalian vertebrates have appreciably different ligand binding properties from the well-characterized mammalian B1 and B2 receptors.