Recently, it has been reported that phosphorylated acyclovir (ACV) inhibits human immunodeficiency virus type 1 (HIV-1) reverse transcriptase in a cell-free system. To deliver phosphorylated ACV inside cells, we designed ACV monophosphorylated derivatives using ProTide technology. We found that the L-alanine derived ProTides show anti-HIV activity at noncytotoxic concentrations; ester and aryl variation was tolerated. ACV ProTides with other amino acids, other than L-phenylalanine, showed no detectable activity against HIV in cell culture. The inhibitory activity of the prodrugs against herpes simplex virus (HSV) types -1 and -2 and thymidine kinase-deficient HSV-1 revealed different structure-activity relationships but was again consistent with successful nucleoside kinase bypass. Enzymatic and molecular modeling studies have been performed in order to better understand the antiviral behavior of these compounds. ProTides showing diminished carboxypeptidase lability translated to poor anti-HIV agents and vice versa, so the assay became predictive.
Recently, it has been reported that phosphorylated acyclovir (n class="Chemical">ACV) inhibits human immunodeficiency virus type 1 (HIV-1) reverse transcriptase in a cell-free system. To deliver phosphorylated ACV inside cells, we designed ACV monophosphorylated derivatives using ProTide technology. We found that the L-alanine derived ProTides show anti-HIV activity at noncytotoxic concentrations; ester and aryl variation was tolerated. ACV ProTides with other amino acids, other than L-phenylalanine, showed no detectable activity against HIV in cell culture. The inhibitory activity of the prodrugs against herpes simplex virus (HSV) types -1 and -2 and thymidine kinase-deficient HSV-1 revealed different structure-activity relationships but was again consistent with successful nucleoside kinase bypass. Enzymatic and molecular modeling studies have been performed in order to better understand the antiviral behavior of these compounds. ProTides showing diminished carboxypeptidase lability translated to poor anti-HIV agents and vice versa, so the assay became predictive.
Authors: C McGuigan; H W Tsang; D Cahard; K Turner; S Velazquez; A Salgado; L Bidois; L Naesens; E De Clercq; J Balzarini Journal: Antiviral Res Date: 1997-08 Impact factor: 5.970
Authors: D Saboulard; L Naesens; D Cahard; A Salgado; R Pathirana; S Velazquez; C McGuigan; E De Clercq; J Balzarini Journal: Mol Pharmacol Date: 1999-10 Impact factor: 4.436
Authors: Andrea Lisco; Christophe Vanpouille; Egor P Tchesnokov; Jean-Charles Grivel; Angélique Biancotto; Beda Brichacek; Julie Elliott; Emilie Fromentin; Robin Shattock; Peter Anton; Robert Gorelick; Jan Balzarini; Christopher McGuigan; Marco Derudas; Matthias Götte; Raymond F Schinazi; Leonid Margolis Journal: Cell Host Microbe Date: 2008-09-11 Impact factor: 21.023
Authors: Graciela Andrei; Andrea Lisco; Christophe Vanpouille; Andrea Introini; Emanuela Balestra; Joost van den Oord; Tomas Cihlar; Carlo-Federico Perno; Robert Snoeck; Leonid Margolis; Jan Balzarini Journal: Cell Host Microbe Date: 2011-10-20 Impact factor: 21.023
Authors: Marco Derudas; Christophe Vanpouille; Davide Carta; Sonia Zicari; Graciela Andrei; Robert Snoeck; Andrea Brancale; Leonid Margolis; Jan Balzarini; Christopher McGuigan Journal: J Med Chem Date: 2017-09-19 Impact factor: 7.446
Authors: Min Luo; Elisabetta Groaz; Steven De Jonghe; Robert Snoeck; Graciela Andrei; Piet Herdewijn Journal: ACS Med Chem Lett Date: 2018-03-16 Impact factor: 4.345