Stephen J. Haleen scite author profile

We determined the distribution of ET(A) and ET(B) receptors in pulmonary arteries from pulmonary hypertensive patients and control subjects, using in vitro autoradiography, and investigated their role in mediating the proliferative effects of endothelin-1 (ET-1) on distal human pulmonary artery smooth muscle cells (PASMCs). Distal arteries possessed more medial [(125)I]-ET-1 binding sites (105 +/- 10 versus 45 +/- 6 amol/mm(2); p < 0.001) and a greater proportion of ET(B) receptors than proximal arteries (36 +/- 3% versus 3 +/- 1%; p < 0.001). Receptor density in distal arteries and lung parenchyma was twofold greater (p < 0.05) in pulmonary hypertensive patients than in control subjects. ET-1 (10(-9)-10(-7) mol/L) stimulated DNA synthesis (147 +/- 10% of control subjects; p < 0.05) and attenuated the antiproliferative action of cicaprost and forskolin on PASMCs, these effects being mediated via ET(A) and ET(B) receptors. Serum-stimulated proliferation was attenuated by inhibiting either endogenous ET-1 release with phosphoramidon (10(-5) mol/L) or its action with PD145065 (10(-5) mol/L). Cicaprost (10(-10)-10(-7) mol/L) inhibited ET-1 release from PASMCs (49 +/- 16% of control after 24 h; p < 0.001) and increased intracellular cAMP levels, whereas ET(B) receptor stimulation selectively reduced cAMP levels. In conclusion, ET(A) and ET(B) receptors are differentially distributed in human pulmonary arteries. Both receptors promote the proliferation of PASMCs in vitro and may contribute to vascular remodeling in pulmonary hypertension.

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Design of a Potent Combined Pseudopeptide Endothelin-A/Endothelin-B Receptor Antagonist, Ac-dBhg¹⁶-Leu-Asp-Ile-[NMe]Ile-Trp²¹(PD 156252): Examination of Its Pharmacokinetic and Spectral Properties

Cody¹,

He²,

Reily³

et al. 1997

J. Med. Chem.

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The endothelins (ETs) are a family of bicyclic 21-amino acid peptides that are potent and prolonged vasoconstrictors. It has been shown that highly potent combined ETA/ETB receptor antagonists can be developed from the C-terminal hexapeptide of ET (His16-Leu17-Asp18-Ile19-Ile20-Trp21), such as Ac-(D)Dip16-Leu-Asp-Ile-Ile-Trp21 (PD 142893) and Ac-DBhg16-Leu-Asp-Ile-Ile-Trp21 (PD 145065). However, these compounds are relatively unstable to enzymatic proteolysis as determined in an in vitro rat intestinal perfusate assay. This instability is thought to be due to carboxypeptidase activity. In fact, incubation of PD 145065 with carboxypeptidase inhibitors greatly increased its half-life in rat intestinal perfusate. By performing a reduced amide bond and N-methyl amino acid scan, it was discovered that N-methylation of Ile-20 resulted in a compound (Ac-DBhg16-Leu-Asp-Ile-[NMe]Ile-Trp21, PD 156252) that retained full receptor affinity at both endothelin receptor subtypes along with enhanced proteolytic stability and cellular permeability. Interestingly, N-methylation of this bond allows the cis configuration to be readily accessible which greatly alters the preferred structure of the entire molecule and may be responsible for the observed enhanced metabolic stability.

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ETA and ETB Receptors Coexist on Rabbit Pulmonary Artery Vascular Smooth Muscle Mediating Contraction

Ladouceur¹,

Flynn²,

Keiser³

et al. 1993

Biochemical and Biophysical Research Communications

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In Vitro and In Vivo Studies with a Series of Hexapeptide Endothelin Antagonists

Doherty¹,

Cody²,

He³

et al. 1993

Journal of Cardiovascular Pharmacology

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PD 116,948, a highly selective A1 adenosine receptor antagonist

Haleen¹,

Steffen²,

Hamilton³

1987

Life Sciences

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Novel Selective Quinazoline Inhibitors of Endothelin Converting Enzyme-1

Ahn¹,

Sisneros²,

Herman³

et al. 1998

Biochemical and Biophysical Research Communications

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Design of a functional hexapeptide antagonist of endothelin

Cody¹,

Doherty²,

He³

et al. 1992

J. Med. Chem.

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Communications to the Editor Design of a Functional Hexapeptide Antagonist of Endothelin Endothelin-1 (ET-1, Figure 1), a bicyclic 21-amino acid peptide, is a potent constrictor of vascular smooth muscle.1 2"3 Since the isolation of ET-1 from the supernatant of cultured porcine endothelial aortic cells, human genomic analysis has identified two structurally and functionally related isopeptides (ET-2 and ET-3).4 56Previous structure-activity analyses have shown the importance of the C-terminal L-tryptophan indole ring, its carboxylate, and the two cystine bridges (1-15 and 3-11

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Structure−Activity Relationships in a Series of Orally Active γ-Hydroxy Butenolide Endothelin Antagonists

Patt¹,

Edmunds²,

Repine³

et al. 1997

J. Med. Chem.

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The design of potent and selective non-peptide antagonists of endothelin-1 (ET-1) and its related isopeptides are important tools defining the role of ET in human diseases. In this report we will describe the detailed structure-activity relationship (SAR) studies that led to the discovery of a potent series of butenolide ETA selective antagonists. Starting from a micromolar screening hit, PD012527, use of Topliss decision tree analysis led to the discovery of the nanomolar ET(A) selective antagonist PD155080. Further structural modifications around the butenolide ring led directly to the subnanomolar ETA selective antagonist PD156707, IC50's = 0.3 (ET(A)) and 780 nM (ET(B)). This series of compounds exhibited functional activity exemplified by PD156707. This derivative inhibited the ETA receptor mediated release of arachidonic acid from rabbit renal artery vascular smooth muscle cells with an IC50 = 1.1 nM and also inhibited the ET-1 induced contraction of rabbit femoral artery rings (ETA mediated) with a pA2 = 7.6. PD156707 also displayed in vivo functional activity inhibiting the hemodynamic responses due to exogenous administration of ET-1 in rats in a dose dependent fashion. Evidence for the pH dependence of the open and closed tautomerization forms of PD156707 was demonstrated by an NMR study. X-ray crystallographic analysis of the closed butenolide form of PD156707 shows the benzylic group located on the same side of the butenolide ring as the gamma-hydroxyl and the remaining two phenyl groups on the butenolide ring essentially orthogonal to the butenolide ring. Pharmacokinetic parameters for PD156707 in dogs are also presented.

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Stephen J. Haleen

ET_A and ET_B Receptors Modulate the Proliferation of Human Pulmonary Artery Smooth Muscle Cells

Design of a Potent Combined Pseudopeptide Endothelin-A/Endothelin-B Receptor Antagonist, Ac-dBhg¹⁶-Leu-Asp-Ile-[NMe]Ile-Trp²¹(PD 156252): Examination of Its Pharmacokinetic and Spectral Properties

ETA and ETB Receptors Coexist on Rabbit Pulmonary Artery Vascular Smooth Muscle Mediating Contraction

In Vitro and In Vivo Studies with a Series of Hexapeptide Endothelin Antagonists

PD 116,948, a highly selective A1 adenosine receptor antagonist

Novel Selective Quinazoline Inhibitors of Endothelin Converting Enzyme-1

Design of a functional hexapeptide antagonist of endothelin

Structure−Activity Relationships in a Series of Orally Active γ-Hydroxy Butenolide Endothelin Antagonists

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Stephen J. Haleen

ETA and ETB Receptors Modulate the Proliferation of Human Pulmonary Artery Smooth Muscle Cells

Design of a Potent Combined Pseudopeptide Endothelin-A/Endothelin-B Receptor Antagonist, Ac-dBhg16-Leu-Asp-Ile-[NMe]Ile-Trp21(PD 156252): Examination of Its Pharmacokinetic and Spectral Properties

ETA and ETB Receptors Coexist on Rabbit Pulmonary Artery Vascular Smooth Muscle Mediating Contraction

In Vitro and In Vivo Studies with a Series of Hexapeptide Endothelin Antagonists

PD 116,948, a highly selective A1 adenosine receptor antagonist

Novel Selective Quinazoline Inhibitors of Endothelin Converting Enzyme-1

Design of a functional hexapeptide antagonist of endothelin

Structure−Activity Relationships in a Series of Orally Active γ-Hydroxy Butenolide Endothelin Antagonists

Contact Info

Product

Resources

About

ET_A and ET_B Receptors Modulate the Proliferation of Human Pulmonary Artery Smooth Muscle Cells

Design of a Potent Combined Pseudopeptide Endothelin-A/Endothelin-B Receptor Antagonist, Ac-dBhg¹⁶-Leu-Asp-Ile-[NMe]Ile-Trp²¹(PD 156252): Examination of Its Pharmacokinetic and Spectral Properties