The synthesis of isoxazolino-carbocyclic nornucleosides incorporating a quinoline moiety was tuned through nitrosocarbonyl intermediate chemistry, and a range of adenine analogues were attained through the linear construction of purine heterocyclic rings. The synthesis hinges on exoselective 1,3-dipolar cycloaddition of quinolinenitrile oxide to the 2,3-oxazanorborn-5-enes and simple elaboration of the cycloadducts. The nucleoside derivatives were initially tested for their inhibitory activity against a variety of viruses, including HBV, PTV and Flu A virus H1N1. High antiviral activities were found for compounds 22aA and 22bA in the case of Flu A H1N1
From Cyclopentadiene to Isoxazoline-Carbocyclic Nucleosides; Synthesis of Highly Active Inhibitors of Influenza A Virus H1N1
QUADRELLI, PAOLO;MELLA, MARIELLA;LEGNANI, LAURA;AL SAAD, DALYA SADEG GEORGE
2013-01-01
Abstract
The synthesis of isoxazolino-carbocyclic nornucleosides incorporating a quinoline moiety was tuned through nitrosocarbonyl intermediate chemistry, and a range of adenine analogues were attained through the linear construction of purine heterocyclic rings. The synthesis hinges on exoselective 1,3-dipolar cycloaddition of quinolinenitrile oxide to the 2,3-oxazanorborn-5-enes and simple elaboration of the cycloadducts. The nucleoside derivatives were initially tested for their inhibitory activity against a variety of viruses, including HBV, PTV and Flu A virus H1N1. High antiviral activities were found for compounds 22aA and 22bA in the case of Flu A H1N1I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
