Cardiovascular and metabolic effects of adenosine A1-receptor agonists in streptozotocin-treated rats.

Because one manifestation of diabetes is an enhancement of the lipolytic process, we evaluated the antilipolytic effects of adenosine A1 agonists in vitro and in vivo in streptozotocin (STZ)-treated diabetic rats. In vitro, we examined the responses to norepinephrine (NE) and adenosine deaminase (ADA), as well as several adenosine A1 agonists, in isolated adipocytes from normal and diabetic rats. Both NE and ADA caused dose-dependent stimulation of lipolysis, elevating glycerol release twofold to threefold over baseline. The sensitivity to both NE and ADA was significantly enhanced in adipocytes from STZ-treated as compared with normal rats. N-5'-ethyl-N(6)(cyclopentyl) adenosine-5'-uronamide (RG14202) was by far the most potent A agonist in inhibiting NE-stimulated lipolysis [50% effective concentration (EC50): 0.014 +/- 0.0008 nM), approximately 1 and 2 log units more potent than N(6)-cyclopentyladenosine (CPA) and N(6)-cyclohexyl-2'-O-methyladenosine (SDZ WAG 994), respectively. In vivo we established a model for evaluating the therapeutic utility of adenosine A1 agonists, emphasizing duration of action. In STZ rats instrumented with telemetry transmitters, the metabolic effects of CPA, RG14202, and SDZ WAG 994 were assessed 6 h after oral administration. Under those conditions, RG14202 and SDZ WAG 994, but not CPA, significantly reduced triglycerides (TRIs) and TRI/free fatty acids (FFAs), respectively. However, all three A1 agonists dose-dependently reduced mean arterial pressure (MAP) and heart rate (HR) concurrently. Thus adenosine A1 agonists can inhibit lipolysis in vitro and in vivo; however, oral administration produces long-lasting beneficial metabolic effects only at doses that also produce a significant bradycardia.

Characterization of the renal effects and renal elimination of sulotroban in the dog.

The renal effects and renal handling of the nonprostanoid thromboxane receptor antagonist, sulotroban (4-[2-(phenylsulfonylamino)ethyl]phenoxyacetic acid), were characterized in dogs. Sulotroban was infused i.v. at 0.06, 0.2, 0.6 and 1.0 mg kg-1 min-1 (plus prime) for 180 min. Arterial blood pressure was reduced significantly during infusion of the 1.0 mg kg-1 min-1 dosage only. Diuresis, characterized by increases in both fractional and absolute urinary excretion of sodium, potassium, chloride and calcium, and decreases in urine osmolality occurred at each of the sulotroban dosages tested. The renal clearance of sulotroban exceeded the glomerular filtration rate, suggesting renal secretion of sulotroban. The transport maximum for sulotroban secretion was approximately 160 micrograms kg-1 min-1. Renal cortical slices from naive dogs accumulated [14C]sulotroban against a concentration gradient. Sulotroban accumulation was blocked by metabolic inhibitors (dinitrophenol and sodium azide) and inhibitors of organic anion transport (probenecid and p-aminohippurate), but not by inhibitors of organic cation transport (cyanine and tetraethylammonium), suggesting that tubular secretion of sulotroban is mediated by an organic anion transport system. It was concluded that: 1) decreases in blood pressure occurred only after high dosages and were associated with high plasma sulotroban concentrations; 2) diuresis occurred at all dosages and may represent a separate pharmacological action unrelated to thromboxane receptor antagonism; and 3) renal excretion of sulotroban in the dog occurs by both filtration and tubular secretion with secretion occurring via an organic acid transporter.