BQ-3020ETB receptor agonist,potent and selective CAS# 143113-45-5 |
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Chemical structure
3D structure
Cas No. | 143113-45-5 | SDF | Download SDF |
PubChem ID | 16131036 | Appearance | Powder |
Formula | C96H140N20O25S | M.Wt | 2006.35 |
Type of Compound | N/A | Storage | Desiccate at -20°C |
Solubility | Soluble to 0.50 mg/ml in sodium bicarbonate (0.03M) | ||
Sequence | LMDKEAVYFAHLDIIW (Modifications: Leu-1 = N-terminal Ac) | ||
SMILES | CCC(C)C(C(=O)NC(C(C)CC)C(=O)NC(CC1=CNC2=CC=CC=C21)C(=O)O)NC(=O)C(CC(=O)O)NC(=O)C(CC(C)C)NC(=O)C(CC3=CN=CN3)NC(=O)C(C)NC(=O)C(CC4=CC=CC=C4)NC(=O)C(CC5=CC=C(C=C5)O)NC(=O)C(C(C)C)NC(=O)C(C)NC(=O)CNC(=O)C(CCCCN)NC(=O)C(CC(=O)O)NC(=O)C(CCSC)NC(=O)C(CC(C)C)NC(=O)C | ||
Standard InChIKey | NUAGCEFLVCODRQ-KETPNHLCSA-N | ||
Standard InChI | InChI=1S/C93H136N20O23S/c1-15-51(9)77(91(133)110-72(93(135)136)40-58-44-96-62-27-21-20-26-61(58)62)113-92(134)78(52(10)16-2)112-89(131)71(43-75(119)120)108-85(127)66(37-49(5)6)105-87(129)69(41-59-45-95-47-98-59)104-79(121)54(12)100-83(125)67(38-56-24-18-17-19-25-56)106-86(128)68(39-57-29-31-60(115)32-30-57)109-90(132)76(50(7)8)111-80(122)53(11)99-73(116)46-97-81(123)63(28-22-23-34-94)102-88(130)70(42-74(117)118)107-82(124)64(33-35-137-14)103-84(126)65(36-48(3)4)101-55(13)114/h17-21,24-27,29-32,44-45,47-54,63-72,76-78,96,115H,15-16,22-23,28,33-43,46,94H2,1-14H3,(H,95,98)(H,97,123)(H,99,116)(H,100,125)(H,101,114)(H,102,130)(H,103,126)(H,104,121)(H,105,129)(H,106,128)(H,107,124)(H,108,127)(H,109,132)(H,110,133)(H,111,122)(H,112,131)(H,113,134)(H,117,118)(H,119,120)(H,135,136)/t51-,52-,53-,54-,63-,64-,65-,66-,67-,68-,69-,70-,71-,72-,76-,77-,78-/m0/s1 | ||
General tips | For obtaining a higher solubility , please warm the tube at 37 ℃ and shake it in the ultrasonic bath for a while.Stock solution can be stored below -20℃ for several months. We recommend that you prepare and use the solution on the same day. However, if the test schedule requires, the stock solutions can be prepared in advance, and the stock solution must be sealed and stored below -20℃. In general, the stock solution can be kept for several months. Before use, we recommend that you leave the vial at room temperature for at least an hour before opening it. |
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About Packaging | 1. The packaging of the product may be reversed during transportation, cause the high purity compounds to adhere to the neck or cap of the vial.Take the vail out of its packaging and shake gently until the compounds fall to the bottom of the vial. 2. For liquid products, please centrifuge at 500xg to gather the liquid to the bottom of the vial. 3. Try to avoid loss or contamination during the experiment. |
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Shipping Condition | Packaging according to customer requirements(5mg, 10mg, 20mg and more). Ship via FedEx, DHL, UPS, EMS or other couriers with RT, or blue ice upon request. |
Description | Highly potent and selective ETB endothelin receptor agonist (Ki values are 0.18 and 970 nM at human ETB and ETA receptors respectively). |
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BQ-3020 is a linear endothelin (ET) analog that is highly selective for ETB receptors. It displaces [125I] ET-1 binding to ETB receptors in porcine cerebellar membranes with an IC50 value of 0.2 nM [1].
ET-1, a 21-amino acid peptide, is one of known isoforms of endothelin (ET-1, ET-2, ET-3), it has strong vasoconstrictor and mitogenic activity. ETB receptor is one of endothelin receptors (i.e. ETA and ETB). ETB receptor has nearly the same affinity for all endothelin isoforms [2].
BQ-3020 displaced [125I] ET-1 binding to ETB receptors in porcine cerebellar membranes at a concentration 4,700 times lower than that to ETA receptors (selective to ET-1) on aortic vascular smooth muscle cells (IC50: 940 nM) [1].
In eight healthy men aged from 20-28 years, the local response of Sarafotoxin S6c (SFTX6c) (5 pmol/min) or BQ-3020 (50 pmol/min) to intra-arterial or intravenous infusion was assessed. Comparing these studies, there was no significant difference between baseline measurements. All the effects were just in the infused arm. Following intra-arterial infusion, both SFTX6c and BQ-3020 produced vasoconstriction indicated by the reduction in forearm blood flow (-25±7% and -27±7%, respectively). Following intravenous infusion, both SFTX6c and BQ-3020 produced a vein diameter reduction (-30±8% and -16±7%, respectively) [3].
References:
[1]. Ihara M, Saeki T, Fukuroda T, et al. A novel radioligand [125I]BQ-3020 selective for endothelin (ETB) receptors. Life Sci., 1992, 51(6):PL47-52.
[2]. Seo B, Oemar BS, Siebenmann R, et al. Both ETA and ETB receptors mediate contraction to endothelin-1 in human blood vessels. Circulation, 1994, 89(3):1203-8.
[3]. Strachan FE, Crockett TR, Mills NL, et al. Constriction to ETB receptor agonists, BQ-3020 and sarafotoxin S6c, in human resistance and capacitance vessels in vivo. Br J Clin Pharmacol., 2000, 50(1):27-30.
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A novel radioligand [125I]BQ-3020 selective for endothelin (ETB) receptors.[Pubmed:1321937]
Life Sci. 1992;51(6):PL47-52.
A linear endothelin (ET) analog, N-acetyl-LeuMetAspLysGluAlaValTyrPheAlaHisLeu-AspIleIleTrp (BQ-3020), is highly selective for ETB receptors. BQ-3020 displaces [125I]ET-1 binding to ETB receptors (nonselective to ET isopeptides) in porcine cerebellar membranes (IC50: 0.2nM) at a concentration 4,700 times lower than that to ETA receptors (selective to ET-1) on aortic vascular smooth muscle cells (VSMC) (IC50: 940nM). BQ-3020 as well as ET-1 and ET-3 elicits vasoconstriction in the rabbit pulmonary artery. The ETA antagonist BQ-123 failed to inhibit this BQ-3020-induced vasoconstriction. Furthermore, BQ-3020 elicits endothelium-dependent vasodilation. These data indicate that BQ-3020 has ETB agonistic activity. The radioligand [125I]BQ-3020 binds to cerebellar membranes at single high affinity sites (Kd = 34.4pM), whereas it scarcely binds to VSMC. [125I]BQ-3020 binding to the cerebellum was displaced by BQ-3020, ET-1 and ET-3 in a nonselective manner (IC50: 0.07-0.17nM). However, the binding of [125I]BQ-3020 was insensitive to the ETA antagonist BQ-123 and other bioactive peptides. Both [125I]ET-1 and [125I]BQ-3020 show slow onset and offset binding kinetics to ETB receptors. These data indicate that the radioligand [125I]BQ-3020 selectively labels ETB receptors and that the slow binding kinetics of ET-1 are dependent on the peptide sequence from Leu6 to Trp21, but not on the structure formed by its two disulfide bridges.
A novel ligand, [125I]BQ-3020, reveals the localization of endothelin ETB receptors.[Pubmed:8519285]
Eur J Pharmacol. 1993 Apr 22;235(1):95-100.
The precise localization of an endothelin (ET) receptor subtype, the ETB receptor, in porcine lung was elucidated by in vitro microautoradiography using a novel ETB-selective radioligand, [125I]BQ-3020 ([125I-Tyr]-N-acetyl-Leu-Met-Asp-Lys-Glu-Ala-Val-Tyr-Phe-Ala-His-Leu-Asp -Ile-Ile-Trp). Of the labeled native ET isopeptides, [125I]ET-3 is selective for ETB receptors. However, [125I]ET-3 was not suitable for autoradiography due to its high degree of non-specific binding. On the other hand, [125I]BQ-3020 showed extremely low non-specific binding on autoradiography. The distribution of [125I]BQ-3020 binding in porcine lung was clearly different from that of [125I]ET-1, which showed more widespread binding than [125I]BQ-3020 due to a high affinity to both ETA and ETB receptors. [125I]BQ-3020 was found to bind to parenchyma, parasympathetic ganglia, pulmonary and submucosal plexuses, but bound only slightly to circular smooth muscle layers and the epithelium of airway tracts. Although [125I]ET-1 bound to the smooth muscle layer of all blood vessels, the binding of [125I]BQ-3020 differed among blood vessels. [125I]BQ-3020 binding in blood vessels paralleled acetylcholinesterase activity, suggesting that ETB receptors in blood vessels are located on parasympathetic nerves. Thus, the radioligand [125I]BQ-3020 is very useful for studying the precise localization of ETB receptors.
Constriction to ETB receptor agonists, BQ-3020 and sarafotoxin s6c, in human resistance and capacitance vessels in vivo.[Pubmed:10886114]
Br J Clin Pharmacol. 2000 Jul;50(1):27-30.
AIMS: The aim of the study was to examine the effects of the ETB receptor selective agonists sarafotoxin S6c (SFTX6c) and BQ-3020 on the forearm resistance and capacitance vessels in healthy subjects in vivo. METHODS: The local response to intra-arterial or intravenous infusion of SFTX6c (5 pmol min-1) or BQ-3020 (50 pmol min-1) was assessed, on separate occasions, in eight healthy men (aged 20-28 years). Data (mean +/- s.e.mean) were examined by ANOVA. Results are expressed as percentage change from baseline at 90 min. RESULTS: SFTX6c and BQ-3020 reduced forearm blood flow, following local intra-arterial infusion (-25 +/- 7% and -27 +/- 7%, respectively; P < 0.001) and reduced hand vein diameter, following local intravenous infusion (-30 +/- 8% and -16 +/- 7%, respectively; P < 0.001). CONCLUSIONS: We have shown that locally active infusions of the selective ETB receptor agonists SFTX6c and BQ-3020 cause arterial constriction and venoconstriction in healthy human blood vessels in vivo. These results indicate that ETB receptor stimulation may mediate vasoconstriction in humans.
The endothelin ET(B) receptor agonist [125I]BQ-3020 binds predominantly to nerves in the bovine retractor penis muscle and penile artery.[Pubmed:11129504]
Pharmacol Toxicol. 2000 Nov;87(5):234-41.
Preliminary pharmacological experiments have suggested that in the bovine retractor penis muscle there are relaxation-mediating endothelin ET(B) receptors, at least part of which are located on the inhibitory nitrergic nerves. The present work was undertaken to test this hypothesis by means of receptor autoradiography and additional pharmacological experiments. In the retractor penis muscle and the penile artery, specific binding of the ETB receptor-selective agonist [125I]BQ-3020 took place predominantly to nerve trunks and minor nerve branches. The situation was the same in the dorsal metatarsal artery, that was included as a reference because of its different innervation. Throughout the nerves the silver grains were evenly distributed over the nuclei of Schwann cells and the spaces between them. In the retractor penis there was also a small amount of specific binding to smooth muscle. No specific endothelial binding was observed in any of the tissues examined. The pharmacological studies confirmed that the relaxation of the retractor penis muscle induced by the ET(B) receptor-selective agonist, sarafotoxin S6c, is susceptible to tetrodotoxin as well as to inhibition of nitric oxide synthase. The relaxation was also characterized by inconsistency, weakness and tachyphylaxis. The electrical field stimulation-induced submaximal relaxation of the retractor penis was unaffected by stimulation or blockade of ET(B) receptors. The autoradiography suggests that in all the three bovine tissues studied there are ET(B) receptors located on nerves independently of the type of efferent nerve. The pharmacological experiments do not support the concept that in the bovine retractor penis muscle neuronal ET(B) receptors exert important immediate effects on the functioning of the penile erection-mediating nitrergic nerves.
[3H]BQ-123, a highly specific and reversible radioligand for the endothelin ETA receptor subtype.[Pubmed:7768260]
Eur J Pharmacol. 1995 Feb 14;274(1-3):1-6.
The mode of binding of [3H]BQ-123 (cyclo(-D-Trp-D-Asp-[prolyl-3,4 (n)-[3H]]Pro-D-Val-Leu)), an endothelin receptor antagonist radioligand, was evaluated in the human neuroblastoma cell line SK-N-MC at 37 degrees C. Scatchard analysis indicated the presence of a single class of [3H]BQ-123 binding sites with a high affinity of 3.2 nM. [3H]BQ-123 binding achieved steady state within 7 min and dissociated with a half-time of 1.4 min, while [125I] endothelin-1 binding barely reached a steady state even after 6 h and showed little dissociation. [3H]BQ-123 binding was sensitive to endothelin-1 and endothelin-2 (Ki values = 0.058 and 0.10 nM, respectively) and the endothelin ETA receptor-selective antagonist BQ-123 (Ki = 3.3 nM), while showing low affinity for endothelin-3 (Ki = 50 nM), the endothelin ETB receptor-selective agonist BQ-3020 (Ki = 970 nM) and other bioactive peptides. Thus, [3H]BQ-123 is a specific and reversible radioligand for endothelin ETA receptors. The rapid reversibility of [3H]BQ-123 binding should provide a tool for estimating the equilibrium inhibition constants (Ki values) of various compounds for endothelin ETA receptors.
Pharmacological differences between rat and human endothelin B receptors.[Pubmed:7733918]
Biochem Biophys Res Commun. 1995 Apr 17;209(2):506-12.
Cloned rat and human endothelin-B receptors (ETBR) were utilized to determine if there are significant pharmacological differences between highly homologous ETBR from different species. Recombinant rat and human ETBR were expressed in CHO-K1 cells, and radioligand binding studies were carried out with [125I]-ET-3 to determine the affinities of various ET receptor agonists and antagonists for rat and human ETBR. These receptors had similar affinities for a number of ETBR agonists (ET-1, ET-3, S6C, BQ 3020) and antagonists (Ro 47-0203, PD 142893). However, several peptide (PD 147452, PD 151583, BQ 788) and non-peptide (PD 156707, SB 209670) antagonists had different affinities for rat and human ETBR, with differences in Ki values between species ranging from 4.1- to 53.4-fold. The ETBR-selective agonist IRL 1620 also had a 5.7-fold higher affinity for rat ETBR than human ETBR. Thus despite their high degree of homology, rat and human ETBR show significant pharmacological differences with respect to both antagonist and agonist binding.
Effects of selective ETB-receptor stimulation on arterial, venous and capillary functions in cat skeletal muscle.[Pubmed:7921617]
Br J Pharmacol. 1994 Jul;112(3):887-94.
1. This paper describes, in quantitative terms, the in vivo effects of two selective ETB-receptor agonists (IRL 1620 and BQ 3020) on vascular resistance (tone) in the following consecutive sections of the vascular bed of sympathectomized cat skeletal muscle: large-bore arterial resistance vessels (> 25 microns), small arterioles (< 25 microns) and the veins. The effects on capillary pressure transcapillary fluid exchange were also recorded. 2. Both IRL 1620 and BQ 3020, infused i.a. to the muscle preparation, evoked an initial transient dilator response followed by a moderate dose-dependent constrictor response, both being preferentially confined to the small arterioles. The dilator response was associated with a transient increase, and the constrictor response with a sustained decrease, in capillary pressure, the latter causing net transcapillary fluid absorption. The capillary filtration coefficient decreased during the constrictor response, indicating constriction of terminal arterioles/precapillary sphincters. 3. The vascular responses to the ETB-receptor agonists were unaffected by blockade of endothelium-derived nitric oxide (NG-nitro-L-arginine methyl ester) and by selective ETA-receptor blockade (FR139317). However, blockade of prostacyclin production with indomethacin decreased the amplitude of the dilator response, and decreased the time required to reach a steady-state vasoconstrictor response to the ETB-receptor agonists. 4. The effect of ETB-receptor stimulation on vascular tone was also evaluated in vitro on the cat femoral artery and vein. IRL 1620 had no effect on the femoral artery but caused a weak dose-dependent relaxation in the femoral vein. This large vein relaxation response seemed to be mediated by endothelium-derived nitric oxide and not by prostacyclin. 5. It may be concluded that ETB-receptor stimulation is responsible for the dilator response, and can contribute to the constrictor response, elicited by endothelins in cat skeletal muscle in vivo.
Distinct subdomains of human endothelin receptors determine their selectivity to endothelinA-selective antagonist and endothelinB-selective agonists.[Pubmed:8473300]
J Biol Chem. 1993 Apr 25;268(12):8547-53.
The endothelin (ET) family of peptides acts via two subtypes of G-protein-coupled heptahelical receptors termed ETA and ETB, which have distinct rank orders of affinity to endothelin receptor agonists and antagonists. To delineate which portions of the receptor molecules determine ligand selectivity, we have constructed a series of chimeras between human ETA and ETB receptors and characterized the chimeric receptors expressed in heterologous cell lines by competitive radioligand binding analysis and by measuring agonist-induced transients of intracellular Ca2+. We demonstrate that the binding determinant for the ETB-selective agonists ET-3, BQ3020, and IRL1620 residues within the region spanning the putative transmembrane helices IV-VI and the adjacent loop regions. In contrast, the transmembrane helices I, II, III, and VII plus the intervening loop regions specify the selectivity for BQ123, an ETA-selective antagonist. BQ123 exhibited no detectable agonistic activity in all wild-type and chimeric receptors tested. A chimeric receptor that has the transmembrane helices IV-VI (and adjacent loops) from the ETB receptor inserted into the remaining regions from the ETA receptor binds both the ETA- and ETB-selective ligands with high affinities. Moreover, BQ123 competitively inhibits the binding of the amino-terminally truncated ETB agonists, 125I-BQ3020 and 125I-IRL1620, to this chimeric receptor, suggesting that BQ123 is a mimic of the carboxyl-terminal linear portion of endothelins. These findings indicate that there are at least two separable ligand interaction subdomains within the endothelin receptors.