PURPOSE: A series of C2-substituted ATP analogues was previously shown to have potent insulin-secreting properties, yet with poor tissue-selectivity for the pancreatic beta-cell. The present study was designed to evaluate the binding profile on beta-cell membranes and the effects on insulin release and pancreatic vascular resistance of a second generation of P2Y(1) receptor agonists, based on C2-substitution of the adenosine 5'-O-(1-boranotriphosphate) scaffold. MATERIALS AND METHODS: Functional experiments were performed in the rat isolated pancreas model; binding studies with ATP-alpha-[(35)S] were performed in membrane homogenates from the rat insulinoma INS-1 cell line. The diastereoisomers of the compounds are designated by A and B. RESULTS: Under 8.3 mmol l(-1) glucose, 2-methylthio-ATP-alpha-B, A isomer, induced a biphasic and concentration dependent insulin response; its maximal efficacy reaches ninefold the baseline secretion and its EC(50) is 28.1 nmol l(-1). No significant effect of this isomer was observed on vascular resistance, whereas the B isomer, which was a less potent insulin secretagogue, consistently induced a transient vasoconstriction. Interestingly, the insulin response induced by 2-methylthio-ATP-alpha-B, A isomer, was clearly glucose-dependent. This drug competes with ATP-alpha-[(35)S] binding in a complex two sites interaction model, with a K(0.5) value of 17.7 nmol l(-1). 2-Chloro-ATP-alpha-B had a similar insulin-secreting profile as 2-methylthio-ATP-alpha-B, with a lower tissue-selectivity. The non-substituted ATP-alpha-B analog, A isomer, was less potent than the C2-substituted derivatives (A isomers) and had a vasorelaxant effect. CONCLUSIONS: We conclude that 2-methylthio-ATP-alpha-B, A isomer, is a potent and tissue-selective P2Y receptor agonist with high efficacy. Its insulin-releasing action is glucose-dependent, which gives interest to this compound as a drug candidate for treating type 2 diabetes.
PURPOSE: A series of C2-substituted ATP analogues was previously shown to have potent insulin-secreting properties, yet with poor tissue-selectivity for the pancreatic beta-cell. The present study was designed to evaluate the binding profile on beta-cell membranes and the effects on insulin release and pancreatic vascular resistance of a second generation of P2Y(1) receptor agonists, based on C2-substitution of the adenosine 5'-O-(1-boranotriphosphate) scaffold. MATERIALS AND METHODS: Functional experiments were performed in the rat isolated pancreas model; binding studies with ATP-alpha-[(35)S] were performed in membrane homogenates from the ratinsulinoma INS-1 cell line. The diastereoisomers of the compounds are designated by A and B. RESULTS: Under 8.3 mmol l(-1) glucose, 2-methylthio-ATP-alpha-B, A isomer, induced a biphasic and concentration dependent insulin response; its maximal efficacy reaches ninefold the baseline secretion and its EC(50) is 28.1 nmol l(-1). No significant effect of this isomer was observed on vascular resistance, whereas the B isomer, which was a less potent insulin secretagogue, consistently induced a transient vasoconstriction. Interestingly, the insulin response induced by 2-methylthio-ATP-alpha-B, A isomer, was clearly glucose-dependent. This drug competes with ATP-alpha-[(35)S] binding in a complex two sites interaction model, with a K(0.5) value of 17.7 nmol l(-1). 2-Chloro-ATP-alpha-B had a similar insulin-secreting profile as 2-methylthio-ATP-alpha-B, with a lower tissue-selectivity. The non-substituted ATP-alpha-B analog, A isomer, was less potent than the C2-substituted derivatives (A isomers) and had a vasorelaxant effect. CONCLUSIONS: We conclude that 2-methylthio-ATP-alpha-B, A isomer, is a potent and tissue-selective P2Y receptor agonist with high efficacy. Its insulin-releasing action is glucose-dependent, which gives interest to this compound as a drug candidate for treating type 2 diabetes.
Authors: P Petit; D Hillaire-Buys; M Manteghetti; S Debrus; J Chapal; M M Loubatières-Mariani Journal: Br J Pharmacol Date: 1998-11 Impact factor: 8.739
Authors: B Fischer; J L Boyer; C H Hoyle; A U Ziganshin; A L Brizzolara; G E Knight; J Zimmet; G Burnstock; T K Harden; K A Jacobson Journal: J Med Chem Date: 1993-11-26 Impact factor: 7.446
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