密码子35氨基酸插入对HIV-1蛋白酶的影响:来自分子动力学的见解

João P. Luís, Ana I Mata, N. Alves, Carlos J. V. Simões, João Pereira-Vaz, Daniela C. Vaz, V. Duque, R. Brito
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摘要

开发有效的抗HIV-1药物面临的主要挑战之一与必需酶(如HIV-1蛋白酶(HIV1Pr))的高突变率有关。[1]Pereira Vaz等人[2]首次报道了在未接受治疗的C亚型感染个体中,在hiv - 1pr编码区35位(E35E_T)插入苏氨酸。在这些个体中,抗逆转录病毒治疗后获得了无法检测到的病毒载量,没有相关的主要突变,这意味着E35E_T对病毒耐药性的贡献为零。有趣的是,一项新的研究表明,当存在主要突变时,35位插入存在潜在的加性效应-最终导致对HIV1Pr抑制剂的更高程度的耐药性。[3]为了研究E35E_T插入在HIV1Pr的结构和配体结合倾向中的作用,以现有的最高同位序列对应的x射线结构为模板,从B亚型和C亚型碱基序列中建立了同源性模型。然后,在存在和不存在E35_T的所有情况下,对未结合和结合(HIV1PR:darunavir复合物)的野生型结构和HIV1PR的单点主要突变变体进行五十(50)纳秒的分子动力学(MD)模拟。结合应用于整个蛋白质及其两个功能性皮瓣区域的均方根(RMS)偏差和波动等简单测量,以及多个MD轨迹的主成分分析(PCA),我们在此对比了所有系统的行为,试图剖析E35E_T在对HIV1PR抑制剂的抗性中的假定作用。
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Influence of codon 35 amino acid insertion in HIV-1 protease: insights from molecular dynamics
One of the main challenges facing the development of effective anti HIV-1 medicines relates to the high mutation rate of essential enzymes, such as HIV-1 Protease (HIV1Pr).[1] Pereira Vaz et al. [2] first reported a threonine insertion at position 35 (E35E_T), in the HIV1Pr coding region, among treatment-naive subtype C infected individuals. Undetectable viral loads were attained after antiretroviral therapy in such individuals, with no associated major mutations, implying null contribution of E35E_T to viral resistance. Interestingly, a new study suggests a potential additive effect of position 35 insertions when in presence of major mutations – ultimately leading to resistance to HIV1Pr inhibitors in higher extent. [3] In order to study the role of the E35E_T insertion in the structure and ligand-binding propensity of HIV1Pr, homology models were generated from subtype B and subtype C base sequences, using available X-ray structures corresponding to highest identity sequences as template. Fifty (50)-nanoseconds Molecular Dynamics (MD) simulations were then performed for unbound and bound (HIV1PR:darunavir complex) structures of the wild-type form and a single‑point major mutation variant of HIV1PR – in all cases in presence and absence of E35_T. Combining simple measurements like the root mean square (RMS) deviations and fluctuations, applied to the whole protein and to its two functional flap regions, with principal component analysis (PCA) of the multiple MD trajectories, we herein contrast the behaviour of all systems in attempt to dissect the putative role of E35E_T in the resistance towards HIV1PR inhibitors.
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