Endothelin-1-dependent leptin induction in gastric mucosal inflammatory responses to Helicobacter pylori lipopolysaccharide

Leptin, a multifunctional hormone that regulates food intake and energy expenditure, has emerged recently as an important modulator of gastric mucosal responses to Helicobacter pylori infection. We applied the animal model of H. pylori LPS-induced gastritis to investigate the role of endothelin-1 (ET-1) in the mucosal leptin production. We show that the histologic pattern of inflammation reached a maximum on the fourth day following the LPS and was reflected in a marked increase in the mucosal level of ET-1 and leptin. Therapeutic administration of phosphoramidon, an inhibitor of ECE-1 activity, led to a 61.2% decline in the mucosal ET-1 level and a 64.1% reduction in leptin, while the severity of mucosal inflammatory involvement increased by 28.6%. A drop in the level of leptin and the increase in severity of the inflammatory involvement elicited by the LPS was also attained in the presence of ET(A) receptor antagonist BQ610, but not the ET(B) receptor antagonist BQ788. Moreover, administration of ERK inhibitor, PD98059, in the presence of ET(B) receptor antagonist, but not the ET(A) receptor antagonist, caused reduction in the mucosal leptin level. Our findings are the first to implicate ET-1 as a key factor in up-regulation of gastric mucosal leptin-associated H. pylori infection. We also show that the effect of ET-1 on leptin production is a consequence of ET(A) receptor activation.     

Porphyromonas gingivalis lipopolysaccharide-induced up-regulation in endothelin-1 interferes with salivary mucin synthesis via epidermal growth factor receptor transactivation

Endothelin-I (ET-1) is a 21 amino acid peptide produced from a biologically inactive big ET-1 by the action of endothelin-converting enzyme-1 (ECE-1) that acts through G protein-coupled ETA and ETB receptors. Using mucous cells of sublingual salivary gland, we show that P. gingivalis lipopolysaccharide (LPS) inhibitory effect on salivary mucin synthesis is accompanied by a marked increase in ET-I generation and the enhancement in ECE-1 activity. Inhibition of ECE-I with phosphoramidon led to the impedance of the LPS-induced ET-1 generation as well as countered the detrimental effect of the LPS on mucin synthesis. Moreover, the LPS inhibitory effect of on mucin synthesis was blocked by ETA receptor antagonist, BQ610, but not by ETB receptor antagonist, BQ788. The LPS-induced reduction in mucin synthesis, furthermore, was countered by PD153035 (76.8%), a specific inhibitor of EGFR kinase as well as PP2 (54.7%), a selective inhibitor of tyrosine kinase Src responsible for ligand-independent EGFR transactivation. Our findings are the first to demonstrate that P. gingivalis LPS detrimental effect on salivary mucin synthesis is intimately linked to the events controlled by EGFR transactivation, triggered by upregulation in ECE-1,enhancement in ET-1 production, and G protein-coupled ETA receptor activation.     

Production of nitric oxide from endothelial cells by 31-amino-acid-length endothelin-1, a novel vasoconstrictive product by human chymase

Human chymase selectively converts big endothelin (ET)-1 to 31-amino-acid-length ET-1 [ET-1(1-31)]. In this study we examined effect of ET-1(1-31) on endothelial function. ET-1(1-31) evoked contraction in a concentration-dependent manner at > 10(-8) M, which was about 10 times weaker than that of conventional ET-1 [ET-1(1-21)]. BQ485, an ETA receptor antagonist, completely abolished ET-1(1-31)-induced contraction, but BQ788, an ETB receptor antagonist, slightly enhanced it, suggesting that ET-1(1-31) relaxes artery via endothelium. On endothelial cells, ET-1(1-21) and ET-1(1-31) increased [Ca2+]i and produced NO, both of which were significantly inhibited by BQ788 and not by BQ485. These results indicate that ET-1(1-31) increased [Ca2+]i and produced NO in endothelial cells through ETB receptor similarly with ET-1(1-21), although slight difference in effect on smooth muscle cells.     

Nonsteroidal anti-inflammatory drugs impair oral mucosal repair by eliciting disturbances in endothelin-converting enzyme-1 and constitutive nitric oxide synthase.

Although the use of nonsteroidal anti-inflammatory drugs (NSAIDs) is known to cause the impairment in mucosal defenses that are well recognized and clinically emphasized with respect to the gastrointestinal tract, less apparent is the extent of their interference with the repair of soft oral tissue. As the disturbances in nitric oxide generation and the release of endothelin-1 (ET-1) are the early signs of injury by NSAIDs, we investigated oral mucosal ulcer healing in the presence of NSAID administration by analyzing the expression of endothelin-converting enzyme-1(ECE-1), responsible for ET-1 generation, and the mucosal activity of inducible (NOS-2) and constitutive (cNOS) nitric oxide synthase responsible for nitric oxide production. Groups of rats with acetic-induced buccal mucosal ulcers were subjected twice daily for up to 10 days to intragastric administration of either indomethacin (5 mg/kg), aspirin (20 mg/kg), or the vehicle and their mucosal tissue subjected to macroacopic assessment of ulcer healing rate and biochemical measurements. While in the control group the ulcer healed by the tenth day, only a 57.2% reduction in the ulcer crater area was attained in the animals subjected to indomethacin and a 54.8% reduction in ulcer occurred in the presence of aspirin administration. Futhermore, by the tenth day, the delay in healing in the presence of indomethacin was manifested by a 4.9-fold higher rate of apoptosis, a 2.7-fold higher expression of ECE-1 activity, a 3.9-fold higher expression of NOS-2 activity and a 2.2-fold decline in cNOS activity, while the interference in ulcer healing by aspirin was characterized by a 5.6-fold higher rate of apoptosis, a 2.8-fold expressiom of ECE-1 activity, a 3.7-fold higher expression of NOS-2 activity and a 2.3-fold lower expression of cNOS activity. Our findings demonstrate that NSAIDs not only pose a well-known risk of gastrointestinal injury, but also interfere with soft oral tissue repair. The impairment in buccal mucosal ulcer healing by NSAID ingestion is manifested in up-regulation in the expression of ECE-1 responsible for ET-1 generation, suppression in cNOS, and amplification of apoptotic events that delay the healing process.     

Antagonism of endothelin-1 inhibits hypoxia-induced apoptosis in cardiomyocytes

Apoptosis is well documented to be a common feature of many pathological processes of the heart. Exogenous endothelin-1 (ET-1) has been shown to be proapoptotic or antiapoptotic, depending on ET-1 concentration, cell type, and the ratio of ETA/ETB receptor subtypes. The role of endogenous ET-1 in cardiomyocyte apoptosis, however, is not clarified. This study observed the effects of the ETA-receptor antagonists BQ610 and BQ123 and the ETB-receptor antagonist BQ788 on hypoxia-induced apoptosis in primary cultured neonatal rat cardiomyocytes. Hypoxic apoptosis was induced by incubating cardiomyocytes in serum-free medium under 3% O2 and 5% CO2 for 24 h and evaluated by TUNEL analysis and flow cytometry. TUNEL analysis showed that the apoptotic cardiomyocytes constituted 24.2% +/- 2.2% of the total cells under hypoxic conditions. Treatment with BQ610 (5 micromol/L) significantly reduced the apoptosis rate to 13.2% +/- 3.7% (data from 4 independent experiments, p < 0.01 vs. hypoxia). Flow cytometry showed that the percentage of apoptotic cells positively stained with annexin V and propidium iodide was 42.76% +/- 4.44% (n = 12) in cultures subjected to hypoxia. BQ123 at 0.04, 0.2, and 1.0 micromol/L dose-dependently reduced the apoptosis rate to 34.00% +/- 10.35% (n = 6, p < 0.05), 30.38% +/- 8.28% (n = 6, p < 0.01), and 22.89% +/- 4.19% (n = 6, p < 0.01), respectively. In contrast, BQ788 did not affect hypoxic apoptosis. These findings suggested that endogenous ET-1 contributed to hypoxia-induced apoptosis in cultured cardiomyocytes, which was mediated by ETA receptors, but not by ETB receptors.     

Dual role of endothelin-1 via ETA and ETB receptors in regulation of cardiac contractile function in mice

An increase in coronary perfusion pressure leads to increased cardiac contractility, a phenomenon known as the Gregg effect. Exogenous endothelin (ET)-1 exerts a positive inotropic effect; however, the role of endogenous ET-1 in the contractile response to elevated load is unknown. We characterized here the role of ETA and ETB receptors in regulation of contractility in isolated, perfused mouse hearts subjected to increased coronary flow. Elevation of coronary flow from 2 to 5 ml/min resulted in 80 +/- 10% increase in contractile force (P < 0.001). BQ-788 (ETB receptor antagonist) augmented the load-induced contractile response by 35% (P < 0.05), whereas bosentan (ETA/B receptor antagonist) and BQ-123 (ETA receptor antagonist) attenuated it by 34% and 56%, respectively (P < 0.05). CV-11974 (ANG II type 1 receptor antagonist) did not modify the increase in contractility. These results show that endogenous ET-1 is a key mediator of the Gregg effect in mouse hearts. Moreover, ET-1 has a dual role in the regulation of cardiac contractility: ETA receptor-mediated increase in contractile force is suppressed by ETB receptors.     

Profibrotic effects of endothelin-1 via the ETA receptor in cultured human cardiac fibroblasts.

BACKGROUND/AIMS: Endothelin-1 (ET-1) has been implicated in pathologic remodelling and tissue repair processes in the heart. We investigated the effects of ET-1 on growth and collagen synthesis responses in cardiac fibroblasts isolated from human hearts. We also studied the receptor subtype(s) mediating such responses and the factors regulating their expression. METHODS: Fibroblasts were isolated from cardiac transplant recipient hearts and characterised by immunocytochemistry. Serum-starved cells were exposed to ET-1 and incorporation of [3H]proline and thymidine were measured as indexes of collagen and DNA synthesis respectively. Blocking experiments utilised the selective ETA receptor antagonist BQ123 and the ETB antagonist BQ788. RESULTS: ET-1 elicited a potent collagen synthesis response in cardiac fibroblasts, with a maximum 29+/-5% increase that was abolished by BQ123. Cardiac fibroblasts responded to ET-1 with a concentration-dependent decrease in DNA synthesis rate. The effects of ET-1 were similar to those of TGF-beta. Radioligand binding studies revealed the presence of high-affinity ET-1 binding sites on these cells, which were upregulated by treatment with the growth factors PDGF and EGF but downregulated by TGF-beta. CONCLUSIONS: These results therefore implicate ET-1 as a trophic agent in the human heart with the ability to influence the development of cardiac fibrosis.     

Role of endothelin-1 and interleukin-4 in buccal mucosal ulcer healing: effect of chronic alcohol ingestion

We investigated the effect of chronic alcohol ingestion on buccal mucosal ulcer healing by analyzing the interplay between mucosal expression of tumor necrosis factor-alpha (TNF-alpha), endothelin-1 (ET-1), and interleukin-4 (IL-4). Chronic ulceration was induced in rats maintained for 5 weeks on alcohol-containing or control liquid diet. In both groups, the ulcer onset was characterized by a massive increase (6.5-8.9-fold) in TNF-alpha and ET-1 (1.6-4.0-fold), and a decrease (1.4-1.5-fold) in IL-4. However, the group on the alcohol diet exhibited a 38.3% higher mucosal expression of TNF-alpha, a 26. 2% higher ET-1 level, and a 6.5% lower content of IL-4. While in both groups the ulcer healing was accompanied by an increase in buccal mucosal expression of IL-4, and a decline in ET-1 and TNF-alpha, the changes were significantly slower in the alcohol diet group and manifested by a 4 day delay in ulcer healing. The results suggest that chronic alcohol ingestion exerts detrimental effects on the buccal mucosal IL-4 expression, causing dysregulation of ET-1 production, induction of TNF-alpha, and triggering apoptotic events that delay the mucosal repair.     

Endothelin-1 activation of ETB receptors leads to a reduced cellular proliferative rate and an increased cellular footprint

Endothelin-1 (ET-1) is a vasoactive peptide which signals through two G-protein coupled receptors, endothelin receptor A (ETA) and B (ETB). We determined that ET-1 activation of its ETB receptor in stably cDNA transfected CHO cells leads to a 55% reduction in cell number by end-point cell counting and a 35% decrease in cell growth by a real-time cell-substrate impedance-based assay after 24h of cell growth. When CHO ETB cells were synchronized in the late G1 cell cycle phase, ET-1 delayed their S phase progression compared to control by 30% as determined by [(3)H]-thymidine incorporation. On the other hand, no such delay was observed during late G2/M to G1 transit when cells were treated with ET-1 after release from mitotic arrest. Using the cell-substrate impedance-based assay, we observed that ET-1 induces opposing morphological changes in CHO ETA and CHO ETB cells with ETB causing an increase in the cell footprint and ETA a decrease. Likewise, in pulmonary artery smooth muscle cells, which express both ETA and ETB receptors, ET-1 induces an ETA-dependent contraction and an ETB dependent dilation. These results are shedding light on a possible beneficial role for ETB in diseases involving ET-1 dysfunction such as pulmonary hypertension.     

Venous smooth muscle contains vasoconstrictor ETB-like receptors.

Two endothelin (ET) receptor subtypes have been identified to date: the ETA receptor which preferentially binds ET-1 over ET-3, and the ETB receptor which is non-selective. This study characterized the ET receptor subtypes present in several vascular smooth muscle preparations using standard in vitro techniques. In all but one of the arteries tested, ET-3 was significantly less potent than ET-1. In contrast, the potency of ET-3 was very similar to that of ET-1 in all of the veins. The selective ETA receptor antagonist BQ-123 blunted the ET-1 contractions in rabbit carotid artery, but not in saphenous vein. The selective ETB receptor ligand sarafotoxin S6c contracted the rabbit saphenous vein, but not the carotid artery. These data suggest that vascular smooth muscle cells express ETA and ETB receptors. Stimulation of either receptor subtype can result in force development.     

Delay in oral mucosal ulcer healing by aspirin is linked to the disturbances in p38 mitogen-activated protein kinase activation.

BACKGROUND: Among the early manifestations of oral mucosal impairment by nonsteroidal anti-inflammatory drugs is the delay in soft oral tissue repair brought about by the amplification of apoptotic events. In this study, we investigated the effect of a specific inhibitor of p38 mitogen-activated protein kinase (p38 MAPK), SB 203580, on the rate of buccal mucosal ulcer healing and the apoptotic processes in rats subjected to intragastric administration of aspirin. METHODS: Groups of rats with experimentally induced buccal mucosal ulcers were administered twice daily for 10 days with SB 203580 (5, 10, and 20 mg/kg) or vehicle followed 30 min later by concomitant administration (twice daily for 10 days) of aspirin at 20 mg/kg. The animals were killed at different periods of treatment and their mucosal tissue subjected to macroscopic assessment of ulcer healing rate, measurement of soluble tumor necrosis factor-alpha (TNF-alpha), and the assay of epithelial cell apoptosis. RESULTS: In the control group the ulcer healed by the tenth day and the rate of healing was not affected by SB 203580 administration, whereas a 54.8% reduction in the ulcer area was attained in the presence of aspirin administration. Moreover, by the tenth day, the delay in ulcer healing caused by aspirin was manifested in a 5.6-fold higher rate of apoptosis and a 5.2-fold higher level of soluble TNF-alpha. Treatment with SB 203580 produced dose-dependent reduction (59.5-74.8%) in aspirin-induced increase in the mucosal level of soluble TNF-alpha, evoked 53.2-69.7% decrease in the rate of epithelial cell apoptosis, and led to a marked reversal (51.8-73.9%) in aspirin-induced delay in ulcer healing. CONCLUSIONS: The results of our findings link the delay in buccal mucosal ulcer healing caused by aspirin ingestion to the disturbances in the p38 MAPK activation.     

Effects of human peptide endothelin-1 and two of its sterically unrestrained C-terminal fragments on coronaryvascular smooth muscle

Clearance of human peptide endothelin-1 (ET-1) has been proposed to follow a receptor pathway involving a cascade of ET-1 receptor endocytosis and lysosomal degradation by a family of proteinases expressed constitutively by most cells. Genetically distinct endopeptidases produce ET-1 and degrade mature peptide. The ET-1 degradation products were considered to be inactive, however, recent evidence suggests that ET-1 fragments sustain most of the homeostatic response produced by parent peptides. The purpose of this study was to establish whether the overall structure of human ET-1 or the structure of its C-terminus is responsible for the subtype-selectivity, down-regulation and clearance of endothelin, and whether D-aminoacid substitution in the moiety of synthetic peptide is involved in effective ET-1 antagonism in coronary vascular smooth muscle. To characterize specific mechanism(s) leading to subtype-selective ET-receptor down-regulation and/or to ET-1 antagonism, ligand binding studies were accomplished with radioactive human (1-21)ET-1 and with C-terminal ET-1 fragments, both peptide agonists and antagonists, in adult male porcine coronary artery vascular smooth muscle (CVSM). The subcellular membranes of CVSM were isolated by isopycnic gradient centrifugation. Exposure of porcine coronary artery to exogenous ET-1 induced endothelin-ETB selective down-regulation. ETA-mediated subtype-ETB down-regulation was observed with distribution of ligand-ETB receptor complexes in light, endosomal, membranes. The ETA selective PD151242 significantly attenuated [3H]-thymidine incorporation, and the ETB selective antagonist BQ788 blocked down-regulation observed in porcine vascular fibroblasts (PF). Preincubation of coronary arteries with ETB selective BQ3020 was accompanied with a more intense down-regulation. CONCLUSION: our data are indicative of short-term ETB selective down-regulation of endothelin receptors in coronary vascular smooth muscle after exposure to ET-1. The presence in the carboxy-terminus of (Ala11,15) substitution in peptide fragments IRL1620 and BQ3020 determined the differential specificity of ETB-receptor coupling and was important for subtype-ETB-receptor down-regulation. The activation of the dominating ETA-receptor by ET-1 facilitated mitogenic responses to ET-1 in porcine vascular fibroblasts.     

Suppression of endothelin-converting enzyme-1 during buccal mucosal ulcer healing: effect of chronic alcohol ingestion

Among the factors affecting the efficiency of soft oral tissue healing is endothelin-1 (ET-1), a potent vasoactive peptide produced from a biologically inactive big ET-1 by the action of endothelin-converting enzyme-1 (ECE-1). We investigated the expression of ECE-1 during buccal mucosal ulcer healing in rats maintained for 5 weeks on alcohol containing or control diet. The mucosal activity of ECE-1, characterized by sensitivity to phosphoramidon, was associated with microsomal fraction and showed an elevated (3.1-fold) level in the alcohol diet group. Moreover, the ulcer onset in the alcohol group was reflected in a 39% greater expression of ECE-1 activity, and was accompanied by a 1.4-fold greater increase in TNF-alpha and a 2.5-fold greater enhancement in epithelial cell apoptosis. While in both groups the ulcer healing was associated with a decrease in buccal mucosal expression of ECE-1, as well as a decline in TNF-alpha and apoptosis, the changes were significantly slower in the alcohol diet group and manifested by a 40% delay in healing. Thus, chronic alcohol ingestion leads to up-regulation of ECE-1 expression, induction of TNF-alpha, and triggering apoptotic events that delay the mucosal repair.     

Endothelin causes contraction of human esophageal muscularis mucosae through interaction with both ETA and ETB receptors

Endothelin (ET) causes contraction of the muscularis mucosae in the guinea pig esophagus, but its role in the human esophagus remains unknown. To investigate effects of ET in the human esophagus, we measured contraction of isolated human esophageal muscularis mucosae strips caused by ET related peptides and binding of 125I-ET-1 to cell membranes prepared from the human esophageal muscularis mucosae. Autoradiography demonstrated specific binding of 125I-ET-1 to the muscularis mucosae and muscularis propria (muscularis externa) of the human esophagus. ET-1 caused tetrodotoxin and atropine-insensitive contraction of muscularis mucosae strips. In terms of the maximal tension of contraction, ET-1 and ET-2 were equal in efficacy. The relative potencies for ET related peptides to cause contraction were ET-1=ET-2>ET-3>sarafotoxin S6c (SX6c), an ETB receptor agonist. ET-1 caused contraction was mildly inhibited by BQ-123, an ETA receptor antagonist, and not by BQ-788, an ETB receptor antagonist. It was moderately inhibited by the combination of both antagonists, indicating synergistic inhibition. Furthermore, desensitization to SX6c with SX6c pretreatment failed to abolish the contractile response to ET-1, which was completely inhibited by BQ-123. These indicate the involvement of both ETA and ETB receptors in the contraction. Binding of 125I-ET-1 to cell membranes of the muscularis mucosae was saturable and specific. Analysis of dose-inhibition curves demonstrated the presence of ETA and ETB receptors. This study demonstrates that, the muscularis mucosae of the human esophagus, similar to that of the guinea pig esophagus, possesses both ETA and ETB receptors mediating muscle contraction.     

Biological profiles of highly potent novel endothelin antagonists selective for the ETA receptor.

We describe novel potent endothelin (ET) antagonists that are highly potent and selective for the ETA receptor (selective to ET-1). Of the synthetic analogs based on ETA antagonist BE-18257A isolated from Streptomyces misakiensis (IC50 value for ETA receptor on porcine aortic smooth muscle cells (VSMCs); 1.4 microM), the compounds BQ-123 and BQ-153 greatly improved the binding affinity of [125I]ET-1 for ETA receptors on VSMCs (IC50; 7.3 and 8.6 nM, respectively), whereas they barely inhibited [125I]ET-1 binding to ETB receptors (nonselective with respect to isopeptides of ET family) in the cerebellar membranes (IC50; 18 and 54 microM, respectively). Associated with the increased affinity for ETA receptors, these peptides antagonized ET-1-induced constriction of isolated porcine coronary artery. However, there was a small amount of ET-1-induced vasoconstriction resistant to these antagonists, which paralleled the incomplete inhibition of [125I]ET-1 binding in the membrane of the aortic smooth muscle layer. These data suggest that the artery has both ETA and ETB receptors responsible for ET-1-induced vasoconstriction. The antagonists shifted the concentration-response curve to the right for ET-1 in the coronary artery, and increased the apparent dissociation constant in the Scatchard analysis of [125I]ET-1 binding on the VSMCs without affecting the binding capacity, indicative of the competitive antagonism for ETA receptor. In conscious rats, pretreatment with the antagonists markedly antagonized ET-1-induced sustained pressor responses in dose-dependent fashion without affecting ET-1-induced transient depressor action, suggesting that the pressor action is mediated by ETA receptors, while the depressor action is mediated by ETB receptors. In addition, pretreatment with the potent antagonists prevented ET-1-induced sudden death in mice. Thus, these potent ETA antagonists should provide a powerful tool for exploring the therapeutic uses of ETA antagonists in putative ET-1-related disorders.     

Aspirin ingestion impairs oral mucosal ulcer healing by inducing membrane-bound tumor necrosis factor-alpha release

Among the early manifestations of impairment by nonsteroidal anti-inflammatory drugs in mucosal tissue repair is the enhancement in tumor necrosis factor-alpha (TNF-alpha). We investigated the effect of aspirin ingestion on the processing of TNF-alpha in rat soft oral tissue during buccal ulcer healing. While in the control group, the ulcer healed by the 10th day; only a 54.8% reduction in the ulcer area was attained in the presence of aspirin administration. Moreover, by the 10th day, the delay in ulcer healing by aspirin was manifested in a 5.6-fold higher rate of apoptosis and a 5.2-fold higher level of soluble TNF-alpha, yet the expression of membrane-bound TNF-alpha showed a 38% decline. Treatment with metalloprotease inhibitor, Zincov, produced dose-dependent reduction (56.9%) in aspirin-induced increase in the mucosal expression of soluble TNF-alpha, evoked a 62% decrease in the rate of epithelial cell apoptosis, and led to a marked reversal (56.9%) in aspirin-induced delay in ulcer healing. Our findings indicate that the impairment in buccal ulcer healing by aspirin is a result of upregulation in the processing of soluble TNF-alpha from its membrane-bound precursor that leads to the amplification of apoptotic events and potentiation of the mucosal inflammatory responses that interfere with healing process.     

Endothelin 1 and 3 enhance neuronal nitric oxide synthase activity through ETB receptors involving multiple signaling pathways in the rat anterior hypothalamus

We have previously reported that endothelin 1 and 3 (ET-1, ET-3) through the ETB receptor decrease norepinephrine release in the anterior hypothalamus and activate the nitric oxide (NO) pathway. In the present work we sought to establish the receptors and intracellular mechanisms underlying the increase in nitric oxide synthase (NOS) activity stimulated by ET-1 and ET-3 in the rat anterior hypothalamus. Results showed that ETs-stimulated NOS activity was inhibited by a selective ETB antagonist (BQ-788), but not by a selective ETA antagonist (BQ-610). In addition, NOS activity was not altered in the presence of an ETA agonist (sarafotoxin 6b), but it was enhanced in the presence of a ETB agonist (IRL-1620). Both Nomega-nitro-L-arginine methyl ester (NOS inhibitor), and 7-nitroindazole (neuronal NOS inhibitor) diminished ETs-stimulated NOS activity. The stimulatory effect of ETs on NOS activity was inhibited in the presence of PLC, PKC, PKA and CaMK-II inhibitors (U-73122, GF-109203X, H-89 and KN-62, respectively), and the IP3 receptor selective antagonist, 2-APB. Our results showed that both ET-1 and ET-3 modulate neuronal NOS activity through the ETB receptor in the rat anterior hypothalamus involving the participation of the PLC-PKC/IP3 pathway as well as PKA and CaMK-II.     

Collecting duct-specific endothelin B receptor knockout increases ENaC activity

Collecting duct (CD)-derived endothelin-1 (ET-1) acting via endothelin B (ETB) receptors promotes Na(+) excretion. Compromise of ET-1 signaling or ETB receptors in the CD cause sodium retention and increase blood pressure. Activity of the epithelial Na(+) channel (ENaC) is limiting for Na(+) reabsorption in the CD. To test for ETB receptor regulation of ENaC, we combined patch-clamp electrophysiology with CD-specific knockout (KO) of endothelin receptors. We also tested how ET-1 signaling via specific endothelin receptors influences ENaC activity under differing dietary Na(+) regimens. ET-1 significantly decreased ENaC open probability in CD isolated from wild-type (WT) and CD ETA KO mice but not CD ETB KO and CD ETA/B KO mice. ENaC activity in WT and CD ETA but not CD ETB and CD ETA/B KO mice was inversely related to dietary Na(+) intake. ENaC activity in CD ETB and CD ETA/B KO mice tended to be elevated under all dietary Na(+) regimens compared with WT and CD ETA KO mice, reaching significance with high (2%) Na(+) feeding. These results show that the bulk of ET-1 inhibition of ENaC activity is mediated by the ETB receptor. In addition, they could explain the Na(+) retention and elevated blood pressure observed in CD ET-1 KO, CD ETB KO, and CD ETA/B KO mice consistent with ENaC regulation by ET-1 via ETB receptors contributing to the antihypertensive and natriuretic effects of the local endothelin system in the mammalian CD.     

Endothelin-1[1-31] acts as a selective ETA-receptor agonist in the rat adrenal cortex

Endothelin-1 (ET-1) is a 21-amino acid residue (ET-1[1-21]) hypertensive peptide, which together with its receptor subtypes A and B (ETA and ETB) is expressed in the rat adrenal cortex, where it stimulates steroid-hormone (aldosterone and corticosterone) secretion through the ETB receptor and the growth (proliferative activity) of the zona glomerulosa (ZG) through the ETA receptor. ET-1[1-21] is generated from bigET-1 by the endothelin-converting enzyme (ECE-1). However, recent evidence indicates the existence of an alternative chymase-mediated biosynthetic pathway leading to the production of an ET-1[1-31] peptide, which was found to reproduce the ETA receptor-mediated vascular effects of ET-1[1-21]. We found that ET-1[1-21], but not ET-1[1-31], concentration-dependently raised steroid secretion from dispersed rat adrenocortical cells, its effect being blocked by the ETB-receptor selective antagonist BQ-788. Both ET-1s concentration-dependently increased the number of "S-phase" cells (as detected by the 5-bromo-2'-deoxyuridine immunocytochemical method) in capsule-ZG strips within a 240 min incubation. The ZG proliferogenic action of both ET-1s was blocked by the ETA-receptor antagonist BQ-123, and ET-1[1-31] was found to be significantly more potent than ET-1[1-21]. Autoradiography showed that in the rat adrenal ET-1[1-21] displaced the binding of selective ligands to both ETA ([125I]PD-151242) and ETB receptors ([125I]BQ-3020), while ET-1[1-31] eliminates only the binding to ETA receptors. Collectively, our findings provide strong evidence that ET-1[1-31] acts in the rat adrenal glands as a selective ETA-receptor agonist, mainly involved in the stimulation of ZG proliferative activity.     

Dipeptide sulfonamides as endothelin ETA/ETB receptor antagonists

Endothelin-1 (ET-1) is a potent mitogen and modulator of vascular tone. It is synthesized and released from endothelial cells and acts upon two receptor subtypes designated as ETA and ETB. In this study, a series of potent dipeptide sulfonamide dual-endothelin ETA/ETB receptor antagonists were prepared to investigate their potential benefit in vascular diseases. CGS 31398 inhibited [125I]ET-1 binding to human ETA and ETB receptors expressed in Chinese hamster ovary (CHO) cells (ETA/CHO, ETB/CHO) with respective IC50 values of 0.26 and 0.12 nM. However, in anesthetized rats, this compound markedly potentiated ET-1-induced renal vascular resistance, a response normally observed with selective ETB receptor antagonists. To determine whether species differences account for these results, a direct comparison was made between binding to rat and rabbit aortic membranes versus functional antagonism in isolated rat aortic rings. It was found that CGS 31398 had potent affinity for the ETA receptor in rat and rabbit aorta with IC50 values of 0.87 and 0.79 nM, respectively. Inhibition of ET-1-induced contractions of rat aorta by the compound was considerably weaker than expected (pKB = 6.4), while that of sarafotoxin S6c induced contraction of dog saphenous vein (100% inhibition at 100 nM) was consistent with corresponding binding data. These results suggest that although CGS 31398 is a potent dual inhibitor of ETA/ETB receptor binding, it surprisingly displays potent ETB and weak ETA receptor antagonism in functional assays.