Background and Purpose Nutrient sensing in the gut is believed to be accomplished through activation of GPCRs expressed on enteroendocrine cells. In particular, L‐cells located predominantly in distal regions of the gut secrete glucagon‐like peptide 1 (GLP‐1) and peptide tyrosine‐tyrosine (PYY) upon stimulation by nutrients and bile acids (BA). The study was designed to address the mechanism of hormone secretion in L‐cells stimulated by the BA receptor G protein‐coupled bile acid receptor 1 (GPBAR1). Experimental Approach A novel, selective, orally bioavailable, and potent GPBAR1 agonist, RO5527239, was synthesized in order to investigate L‐cell secretion in vitro and in vivo in mice and monkey. In analogy to BA, RO5527239 was conjugated with taurine to reduce p.o. bioavailability yet retaining its potency. Using RO5527239 and tauro‐RO5527239, the acute secretion effects on L‐cells were addressed via different routes of administration. Key Results GPBAR1 signalling triggers the co‐secretion of PYY and GLP‐1, and leads to improved glucose tolerance. The strong correlation of plasma drug exposure and plasma PYY levels suggests activation of GPBAR1 from systemically accessible compartments. In contrast to the orally bioavailable agonist RO5527239, we show that tauro‐RO5527239 triggers PYY release only when applied intravenously. Compared to mice, a slower and more sustained PYY secretion was observed in monkeys. Conclusion and Implications Selective GPBAR1 activation elicits a strong secretagogue effect on L‐cells, which primarily requires systemic exposure. We suggest that GPBAR1 is a key player in the intestinal proximal‐distal loop that mediates the early phase of nutrient‐evoked L‐cell secretion effects.
Endothelin (ET) 1 is a powerful vasoconstrictor of coronary arteries and may play a role in coronary spasm, atherosclerosis, and myocardial infarction. Previous studies have demonstrated that intracoronary ET caused marked vasoconstriction of the coronary circulation; however, it remains unclear which ET receptor types are present and which of these receptors mediate this vasoconstriction. To characterize the ET receptors present in dog coronary arteries, competition binding assays with radiolabeled ET-1 using ET-1, ET-3, ETA receptor antagonist BQ-123, and sarafotoxin S6c were performed. Three binding sites were apparent in the left circumflex coronary artery: an ETA receptor, a high-affinity ETB receptor, and a lower-affinity ETB receptor. To investigate the in vivo effects of ETB receptor stimulation, intracoronary sarafotoxin S6c, a highly selective ETB agonist, was administered in anesthetized open-chest dogs in a constant-pressure coronary E a ndothelin (ET) 1 is a powerful vasoconstrictor of coronary arteries, and several studies have suggested a role for ET in coronary spasm,1.2 atherosclerosis,3'4 and myocardial infarction.5-7 In a previous study,8 we demonstrated that intracoronary ET caused marked vasoconstriction of the coronary circulation and a more pronounced reduction of flow in the subepicardium compared with the subendocardium. However, it remains unclear which ET receptor types are present in the canine coronary circulation and which of these receptors mediated the coronary circulation response to ET. ET-1 appears to elicit its physiological and pathophysiological effects through at least two types of ET receptors in the vasculature.9 The ETA receptor is selective for ET-1 over ET-3 and is a predominantly smooth muscle cell receptor10'11 that induces vasoconstriction, whereas the ETB receptor is unselective and thought to be endothelium associated, mediating vasorelaxation (for reviews, see References 12 through 14). However, recent studies have suggested that ETB receptors may also be smooth muscle cell receptors that can mediate vasoconstriction. Consequently, the goal of the present study was to determine whether functional ETB receptors mediating vasoconstriction were present in canine coronary arteries. Competition binding assays with radiolabeled ET-1 using the selective ligands BQ-12320 and sarafotoxin Received March 16, 1993; accepted September 28, 1993.
Endothelin (ET) is a potent vasoconstrictor that may be involved in a number of cardiovascular disorders, although its role in normal hemodynamics remains unclear. Twenty-two anesthetized open-chest dogs were instrumented for measurement of systemic and pulmonary hemodynamics, cardiac output, coronary blood flow, and cardiac contractility. Big ET induced peripheral and coronary vasoconstriction, which occurred before significant elevations in plasma ET and which was nearly completely blocked by bosentan, a new nonpeptidic mixed (ETA and ETB) ET receptor antagonist. Bosentan also prevented the peripheral dilatation caused by the specific ETB receptor agonist, sarafotoxin S6c, but did not prevent the peripheral vasoconstriction induced by angiotensin II. Bosentan alone had no significant hemodynamic effect in the normal anesthetized dog, although it did induce a reactive increase in the plasma level of ET-1 and ET-3. This study demonstrates that, despite blocking both ETA and ETB receptors, bosentan alone had no hemodynamic effect, suggesting that ET does not play a major role in the normal hemodynamic status of anesthetized dogs.
Endothelin (ET) may play a role in vasospasm after subarachnoid hemorrhage (SAH). The aim of our study was to test whether the systemic administration of bosentan, a nonpeptidic ET(A) and ETB receptor antagonist, could reverse vasospasm without inducing hypotension. In rabbits (single-hemorrhage model) and in dogs (double-hemorrhage model), SAH was induced; after vasospasm was established, the animals received intravenously either saline or a 30 mg/kg bolus of bosentan. The cross-sectional area of the basilar artery was analyzed by quantitative angiography. In rabbits (n = 13), bosentan reversed basilar vasospasm to the same extent as did an intravertebral injection of sodium nitroprusside. In dogs (n = 10), bosentan reversed only 52 +/- 10% of the vasospasm reversible by papaverine. Bosentan did not alter the heart rate or the arterial blood pressure in either the rabbits or the dogs. In the cerebrospinal fluid, SAH increased endothelin-1 (ET1) and big ET1 by 6 and 3.8 times, respectively; in the basilar artery, SAH increased ET1 concentration, big ET1 concentration, and ET-converting enzyme activity by 1.3, 2, and 2.7 times, respectively. In addition, a local involvement of ET was also suggested by the relaxing effect of bosentan on basilar artery rings from rabbits with SAH and not from control rabbits. Receptor binding studies performed on dog basilar arteries revealed a shift in the phenotype expression of ET receptors from the A to the B type after SAH. We conclude that ET plays a major role in SAH and that systemic ET blockade might selectively dilate spastic arteries.
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