OBJECTIVES: To characterize the effect of hepatitis C virus (HCV) polymerase intrinsic genetic heterogeneity on the inhibitory activity of nucleoside and non-nucleoside HCV polymerase inhibitors. METHODS: The sensitivity of genotype (GT) 1 HCV NS5B clinical isolates from treatment-naive patients to nucleoside and non-nucleoside polymerase inhibitors was assessed. The genetic diversity at the population level, as well as that of their quasispecies, was correlated with the observed reduced sensitivity to inhibitors. RESULTS: R1479 and NM107 (nucleoside analogues that have entered Phase 2 clinical trials as prodrugs R1626 and NM283, respectively) were similarly active across the tested clinical isolates. Resistance mutations to nucleoside analogues were not observed in any of the isolates. However, the activity of the non-nucleoside thumb II inhibitor NNI-1, palm I inhibitors NNI-2 and NNI-3, and palm II inhibitor HCV-796 was reduced across different isolates. This reduction in inhibitory activity for non-nucleoside inhibitors (NNIs) was, in most cases, correlated with the existence of known NNI resistance mutations in the NS5B polymerase population of the clinical isolates, as detected by population sequencing. Resistance mutations to NNIs were also observed at a low frequency within the clinical isolates' viral quasispecies that allowed for their rapid selection upon drug selective pressure. CONCLUSIONS: The higher frequency of known NNI resistance mutations or polymorphisms known to affect their antiviral potency when compared with the lack of detection of resistance mutations to the nucleoside analogues suggests a potential for primary reduced responsiveness as well as faster development of clinically significant resistance.
OBJECTIVES: To characterize the effect of hepatitis C virus (HCV) polymerase intrinsic genetic heterogeneity on the inhibitory activity of nucleoside and non-nucleoside HCV polymerase inhibitors. METHODS: The sensitivity of genotype (GT) 1 HCV NS5B clinical isolates from treatment-naive patients to nucleoside and non-nucleoside polymerase inhibitors was assessed. The genetic diversity at the population level, as well as that of their quasispecies, was correlated with the observed reduced sensitivity to inhibitors. RESULTS: R1479 and NM107 (nucleoside analogues that have entered Phase 2 clinical trials as prodrugs R1626 and NM283, respectively) were similarly active across the tested clinical isolates. Resistance mutations to nucleoside analogues were not observed in any of the isolates. However, the activity of the non-nucleoside thumb II inhibitor NNI-1, palm I inhibitors NNI-2 and NNI-3, and palm II inhibitor HCV-796 was reduced across different isolates. This reduction in inhibitory activity for non-nucleoside inhibitors (NNIs) was, in most cases, correlated with the existence of known NNI resistance mutations in the NS5B polymerase population of the clinical isolates, as detected by population sequencing. Resistance mutations to NNIs were also observed at a low frequency within the clinical isolates' viral quasispecies that allowed for their rapid selection upon drug selective pressure. CONCLUSIONS: The higher frequency of known NNI resistance mutations or polymorphisms known to affect their antiviral potency when compared with the lack of detection of resistance mutations to the nucleoside analogues suggests a potential for primary reduced responsiveness as well as faster development of clinically significant resistance.
Authors: Micaela B Reddy; Peter N Morcos; Sophie Le Pogam; Ying Ou; Karl Frank; Thierry Lave; Patrick Smith Journal: Antimicrob Agents Chemother Date: 2012-04-02 Impact factor: 5.191
Authors: Pornwaratt Niyomrattanakit; Yen-Liang Chen; Hongping Dong; Zheng Yin; Min Qing; J Frasier Glickman; Kai Lin; Dieter Mueller; Hans Voshol; Joanne Y H Lim; Shahul Nilar; Thomas H Keller; Pei-Yong Shi Journal: J Virol Date: 2010-03-17 Impact factor: 5.103
Authors: Jeffrey J Pouliot; Michael Thomson; Mi Xie; Joseph Horton; John Johnson; David Krull; Amanda Mathis; Yoshio Morikawa; Derek Parks; Richard Peterson; Takashi Shimada; Elizabeth Thomas; Jessica Vamathevan; Stephanie Van Horn; Zhiping Xiong; Robert Hamatake; Andrew J Peat Journal: Antimicrob Agents Chemother Date: 2015-08-10 Impact factor: 5.191