拉米夫定-阿德福韦酯联合治疗期间乙型肝炎病毒聚合酶基因突变的克隆进化。
Clonal evolution of hepatitis B virus polymerase gene mutations during lamivudine-adefovir combination treatment.
机构信息
Department of Internal Medicine, Konkuk University School of Medicine, Seoul 143-729, South Korea.
出版信息
World J Gastroenterol. 2012 Nov 28;18(44):6437-46; discussion p.6445. doi: 10.3748/wjg.v18.i44.6437.
AIM
To identify hepatitis B virus polymerase gene mutations during antiviral therapy using lamivudine-adefovir sequential monotherapy followed by lamivudine-adefovir combination therapy.
METHODS
The patient cohort included four adult chronic hepatitis B patients who had undergone sequential monotherapy, first with lamivudine (LMV) and then, after developing viral breakthrough, with adefovir (ADV) therapy. All of the patients had non-response or viral breakthrough after LMV-ADV sequential monotherapy, which resulted in the switching of their antiviral regimen to LMV-ADV combination therapy. Eleven serum samples from the four patients who showed non-response to rescue LMV-ADV combination therapy were collected sequentially at a time before the antiviral treatment and then during the LMV monotherapy, ADV monotherapy, and LMV-ADV combination therapy. For the genotypic analysis, the whole 1310-bp polymerase gene region was amplified, cloned and sequenced.
RESULTS
All patients had been previously treated with 100 mg of LMV once daily for a 15- to 26-mo period. The emergence of resistance mutations to LMV, such as rtM204V/I and/or rtL180M, were found in all patients. Their antiviral regimens were switched to ADV monotherapy as the second line treatment. All patients had viral breakthrough or non-response after the LMV-ADV sequential monotherapy. ADV-resistant mutations were detected after 13 to 19 mo of LMV-ADV sequential monotherapy. The rtA181V/T mutations were predominantly identified during the ADV treatment in the LMV-resistant patients. Twenty-seven of 38 clones were combined with an amino acid change at rt181; three clones had mutations in rt236 and one clone had a combined mutation. The rtA181V/T mutations were not suppressed by the LMV-ADV combination therapy. Thirty-nine of 64 clones showed an rtA181V/T mutation and six clones showed combined mutations in rt181 and rt236. Mutations in rt204 re-emerged during the combination treatment. The rt181 and rt204 mutations did not co-exist in one clone.
CONCLUSION
Add-on lamivudine therapy with adefovir for adefovir resistance may not suppress the pre-existing adefovir-resistant mutation that develops during lamivudine-adefovir sequential monotherapy.
目的
通过拉米夫定-阿德福韦序贯单药治疗后再进行拉米夫定-阿德福韦联合治疗,来确定乙型肝炎病毒聚合酶基因在抗病毒治疗过程中的突变情况。
方法
该患者队列包括 4 名接受序贯单药治疗的成年慢性乙型肝炎患者,首先使用拉米夫定(LMV)治疗,然后在出现病毒突破后使用阿德福韦(ADV)治疗。所有患者在 LMV-ADV 序贯单药治疗后均出现无应答或病毒突破,随后将抗病毒方案改为 LMV-ADV 联合治疗。从 4 名对挽救性 LMV-ADV 联合治疗无应答的患者中,在抗病毒治疗前、LMV 单药治疗时、ADV 单药治疗时和 LMV-ADV 联合治疗时,依次采集了 11 份血清样本。进行基因分型分析时,扩增、克隆并测序了整个 1310 个碱基对的聚合酶基因区域。
结果
所有患者均接受过 100mg 拉米夫定每日 1 次治疗,疗程为 15 至 26 个月。所有患者均出现了对 LMV 的耐药突变,如 rtM204V/I 和/或 rtL180M。他们的抗病毒方案被改为 ADV 单药治疗作为二线治疗。所有患者在 LMV-ADV 序贯单药治疗后均出现病毒突破或无应答。在 LMV-ADV 序贯单药治疗 13 至 19 个月后,检测到 ADV 耐药突变。在 LMV 耐药患者中,ADV 治疗期间主要检测到 rtA181V/T 突变。38 个克隆中有 27 个与 rt181 的氨基酸改变相结合;3 个克隆有 rt236 突变,1 个克隆有联合突变。rtA181V/T 突变未被 LMV-ADV 联合治疗抑制。64 个克隆中有 39 个显示 rtA181V/T 突变,6 个克隆显示 rt181 和 rt236 的联合突变。在联合治疗期间,rt204 再次出现突变。rt181 和 rt204 突变在一个克隆中并不共存。
结论
阿德福韦联合拉米夫定治疗阿德福韦耐药可能无法抑制在拉米夫定-阿德福韦序贯单药治疗期间出现的预先存在的阿德福韦耐药突变。
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