BACKGROUND/AIMS: Nucleoside analogues such as lamivudine and famciclovir are potent drugs for treatment of chronic hepatitis B virus infection. Breakthrough infections during lamivudine therapy are associated with mutations in the YMDD motif and putative B region of the HBV polymerase. This study investigated whether failure of famciclovir therapy is also associated with presence or emergence of particular mutations in the HBV polymerase. METHODS: We analyzed longitudinally the sequence of the priming and polymerase domain in seven patients with primary non-response to therapy and two patients with a breakthrough during therapy. Two patients who responded to therapy served as a control. RESULTS: The YMDD motif and the B region were conserved in all isolates. V-->I changes at position 555 just downstream of the YMDD motif were observed before and during therapy in a virus subpopulation of two patients with a primary non-response. In patients with a breakthrough, 378-V-->I and 424-N-->D mutations emerged in the N terminal part of the polymerase domain during follow-up. Lamivudine rescue therapy initiated in four patients, including a patient infected with YMDD(555-V-->I) variants, efficiently reduced viremia. CONCLUSIONS: These data indicate that failure of famciclovir therapy can occur independently of mutations in the YMDD motif or B region of the HBV polymerase and provide a rationale for rescue therapy with lamivudine.
BACKGROUND/AIMS: Nucleoside analogues such as lamivudine and famciclovir are potent drugs for treatment of chronic hepatitis B virus infection. Breakthrough infections during lamivudine therapy are associated with mutations in the YMDD motif and putative B region of the HBV polymerase. This study investigated whether failure of famciclovir therapy is also associated with presence or emergence of particular mutations in the HBV polymerase. METHODS: We analyzed longitudinally the sequence of the priming and polymerase domain in seven patients with primary non-response to therapy and two patients with a breakthrough during therapy. Two patients who responded to therapy served as a control. RESULTS: The YMDD motif and the B region were conserved in all isolates. V-->I changes at position 555 just downstream of the YMDD motif were observed before and during therapy in a virus subpopulation of two patients with a primary non-response. In patients with a breakthrough, 378-V-->I and 424-N-->D mutations emerged in the N terminal part of the polymerase domain during follow-up. Lamivudine rescue therapy initiated in four patients, including a patient infected with YMDD(555-V-->I) variants, efficiently reduced viremia. CONCLUSIONS: These data indicate that failure of famciclovir therapy can occur independently of mutations in the YMDD motif or B region of the HBV polymerase and provide a rationale for rescue therapy with lamivudine.
Authors: L Stuyver; C Van Geyt; S De Gendt; G Van Reybroeck; F Zoulim; G Leroux-Roels; R Rossau Journal: J Clin Microbiol Date: 2000-02 Impact factor: 5.948
Authors: R Chin; T Shaw; J Torresi; V Sozzi; C Trautwein; T Bock; M Manns; H Isom; P Furman; S Locarnini Journal: Antimicrob Agents Chemother Date: 2001-09 Impact factor: 5.191
Authors: William E Delaney; Huiling Yang; Christopher E Westland; Kalyan Das; Eddy Arnold; Craig S Gibbs; Michael D Miller; Shelly Xiong Journal: J Virol Date: 2003-11 Impact factor: 5.103
Authors: William E Delaney; Ros Edwards; Danni Colledge; Tim Shaw; Phil Furman; George Painter; Stephen Locarnini Journal: Antimicrob Agents Chemother Date: 2002-09 Impact factor: 5.191