针对依非韦伦和奈韦拉平耐药途径的贝叶斯网络分析。
Bayesian network analyses of resistance pathways against efavirenz and nevirapine.
作者信息
Deforche Koen, Camacho Ricardo J, Grossman Zehave, Soares Marcelo A, Van Laethem Kristel, Katzenstein David A, Harrigan P Richard, Kantor Rami, Shafer Robert, Vandamme Anne-Mieke
机构信息
Rega Institute for Medical Research, Katholieke Universiteit Leuven, Leuven, Belgium.
出版信息
AIDS. 2008 Oct 18;22(16):2107-15. doi: 10.1097/QAD.0b013e32830fe940.
OBJECTIVE
To clarify the role of novel mutations selected by treatment with efavirenz or nevirapine, and investigate the influence of HIV-1 subtype on nonnucleoside reverse transcriptase inhibitor (nNRTI) resistance pathways.
DESIGN
By finding direct dependencies between treatment-selected mutations, the involvement of these mutations as minor or major resistance mutations against efavirenz, nevirapine, or coadministrated nucleoside analogue reverse transcriptase inhibitors (NRTIs) is hypothesized. In addition, direct dependencies were investigated between treatment-selected mutations and polymorphisms, some of which are linked with subtype, and between NRTI and nNRTI resistance pathways.
METHODS
Sequences from a large collaborative database of various subtypes were jointly analyzed to detect mutations selected by treatment. Using Bayesian network learning, direct dependencies were investigated between treatment-selected mutations, NRTI and nNRTI treatment history, and known NRTI resistance mutations.
RESULTS
Several novel minor resistance mutations were found: 28K and 196R (for resistance against efavirenz), 101H and 138Q (nevirapine), and 31L (lamivudine). Robust interactions between NRTI mutations (65R, 74V, 75I/M, and 184V) and nNRTI resistance mutations (100I, 181C, 190E and 230L) may affect resistance development to particular treatment combinations. For example, an interaction between 65R and 181C predicts that the nevirapine and tenofovir and lamivudine/emtricitabine combination should be more prone to failure than efavirenz and tenofovir and lamivudine/emtricitabine.
CONCLUSION
Bayesian networks were helpful in untangling the selection of mutations by NRTI versus nNRTI treatment, and in discovering interactions between resistance mutations within and between these two classes of inhibitors.
目的
阐明依非韦伦或奈韦拉平治疗所选择的新突变的作用,并研究HIV-1亚型对非核苷类逆转录酶抑制剂(nNRTI)耐药途径的影响。
设计
通过寻找治疗选择的突变之间的直接依赖性,推测这些突变作为针对依非韦伦、奈韦拉平或联合使用的核苷类逆转录酶抑制剂(NRTI)的次要或主要耐药突变的参与情况。此外,还研究了治疗选择的突变与多态性之间的直接依赖性,其中一些多态性与亚型相关,以及NRTI和nNRTI耐药途径之间的直接依赖性。
方法
联合分析来自各种亚型的大型合作数据库的序列,以检测治疗选择的突变。使用贝叶斯网络学习,研究治疗选择的突变、NRTI和nNRTI治疗史以及已知的NRTI耐药突变之间的直接依赖性。
结果
发现了几个新的次要耐药突变:28K和196R(对依非韦伦耐药)、101H和138Q(奈韦拉平)以及31L(拉米夫定)。NRTI突变(65R、74V、75I/M和184V)与nNRTI耐药突变(100I、181C、190E和230L)之间的强烈相互作用可能会影响对特定治疗组合的耐药性发展。例如,65R和181C之间的相互作用预测,奈韦拉平与替诺福韦以及拉米夫定/恩曲他滨联合使用比依非韦伦与替诺福韦以及拉米夫定/恩曲他滨联合使用更容易失败。
结论
贝叶斯网络有助于理清NRTI与nNRTI治疗对突变的选择,并发现这两类抑制剂内部和之间耐药突变的相互作用。
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