Discovery of 2-aminoimidazopyridine adenosine A(2A) receptor antagonists.

A novel series of adenosine A(2A) receptor antagonists was identified by high-throughput screening of an encoded combinatorial compound collection. The initial hits were optimized for A(2A) binding affinity, A(1) selectivity, and in vitro microsomal stability generating orally available 2-aminoimidazo[4,5-b]pyridine-based A(2A) antagonist leads.

Enhancement of arachidonic acid signaling pathway by nicotinic acid receptor HM74A.

HM74A is a G protein-coupled receptor for nicotinic acid (niacin), which has been used clinically to treat dyslipidemia for decades. The molecular mechanisms whereby niacin exerts its pleiotropic effects on lipid metabolism remain largely unknown. In addition, the most common side effect in niacin therapy is skin flushing that is caused by prostaglandin release, suggesting that the phospholipase A(2) (PLA(2))/arachidonic acid (AA) pathway is involved. Various eicosanoids have been shown to activate peroxisome-proliferator activated receptors (PPAR) that play a diverse array of roles in lipid metabolism. To further elucidate the potential roles of HM74A in mediating the therapeutic effects and/or side effects of niacin, we sought to explore the signaling events upon HM74A activation. Here we demonstrated that HM74A synergistically enhanced UTP- and bradykinin-mediated AA release in a pertussis toxin-sensitive manner in A431 cells. Activation of HM74A also led to Ca(2+)-mobilization and enhanced bradykinin-promoted Ca(2+)-mobilization through Gi protein. While HM74A increased ERK1/2 activation by the bradykinin receptor, it had no effects on UTP-promoted ERK1/2 activation.Furthermore, UTP- and bradykinin-mediated AA release was significantly decreased in the presence of both MAPK kinase inhibitor PD 098059 and PKC inhibitor GF 109203X. However, the synergistic effects of HM74A were not dramatically affected by co-treatment with both inhibitors, indicating the cross-talk occurred at the receptor level. Finally, stimulation of A431 cells transiently transfected with PPRE-luciferase with AA significantly induced luciferase activity, mimicking the effects of PPARgamma agonist rosiglitazone, suggesting that alteration of AA signaling pathway can regulate gene expression via endogenous PPARs.

Characterization of RWJ-351647, a novel nonpeptide vasopressin V2 receptor antagonist.

1. Antagonists of the V(2) vasopressin (AVP) receptor are aquaretic agents, inhibiting water resorption without stimulating electrolyte excretion. In this set of experiments, a novel V(2) receptor antagonist, RWJ-351647, was characterized in vitro and in vivo. 2. RWJ-351647 displaced (3)H-AVP binding from cloned human V(2) and V(1A) receptors with Ki values of 1 nmol/L and 24 nmol/L. In assays using transfected HEK293 cells expressing either human or rat V(2) receptors, RWJ-351647 inhibited AVP-induced cAMP accumulation with Ki values of 3 nmol/L and 6 nmol/L, respectively. 3. RWJ-351647 was very selective in binding assays and showed only weak functional antagonist activity at either the cloned human V(1B) and oxytocin receptors or the human platelet V(1A) receptor. No agonist activity was seen with the compound at any receptor. 4. Pharmacokinetic studies in rats showed RWJ-351647 to be 41.9% bioavailable after a single oral administration. After repeated daily dosing over 5 days, the oral bioavailability remained at 43.9% with no change in the compound peak plasma levels or clearance rate. 5. In efficacy studies, RWJ-351647 increased urine output and decreased urine osmolality with oral doses as low as 0.1 mg/kg and 1.0 mg/kg in rats and cynomolgus monkeys, respectively. In a multiple dose study in primates, RWJ-351647 maintained a consistent aquaretic effect over 10 days without increasing sodium or potassium excretion. 6. In summary, RWJ-351647 was shown to be a selective and potent V(2) receptor antagonist with sustainable aquaretic activity in both rats and primates. The preclinical data suggest that RWJ-351647 is a potent and effective aquaretic agent with potential for use in diseases characterized by water retention.