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本文引用的文献

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Broad neutralization coverage of HIV by multiple highly potent antibodies.多种高效价抗体对 HIV 的广泛中和覆盖。
Nature. 2011 Sep 22;477(7365):466-70. doi: 10.1038/nature10373.
2
Trimeric HIV-1 glycoprotein gp140 immunogens and native HIV-1 envelope glycoproteins display the same closed and open quaternary molecular architectures.三聚体 HIV-1 糖蛋白 gp140 免疫原和天然 HIV-1 包膜糖蛋白展示出相同的封闭和开放的四级分子结构。
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Multiple CCR5 conformations on the cell surface are used differentially by human immunodeficiency viruses resistant or sensitive to CCR5 inhibitors.细胞表面的多种 CCR5 构象被对 CCR5 抑制剂有耐药性或敏感性的人类免疫缺陷病毒不同地利用。
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Synergistic inhibition of R5 HIV-1 by maraviroc and CCR5 antibody HGS004 in primary cells: implications for treatment and prevention.马拉维若与 CCR5 抗体 HGS004 协同抑制原发性细胞中的 R5 HIV-1:对治疗和预防的影响。
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Dose-response curve slope is a missing dimension in the analysis of HIV-1 drug resistance.剂量反应曲线斜率是分析 HIV-1 耐药性时缺失的一个维度。
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How can HIV-type-1-Env immunogenicity be improved to facilitate antibody-based vaccine development?如何提高1型艾滋病毒包膜蛋白(HIV-type-1-Env)的免疫原性以促进基于抗体的疫苗开发?
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MPER-specific antibodies induce gp120 shedding and irreversibly neutralize HIV-1.MPER 特异性抗体诱导 gp120 脱落,并不可逆地中和 HIV-1。
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8
Resistance of a human immunodeficiency virus type 1 isolate to a small molecule CCR5 inhibitor can involve sequence changes in both gp120 and gp41.人类免疫缺陷病毒 1 型分离物对小分子 CCR5 抑制剂的耐药性可能涉及 gp120 和 gp41 中的序列变化。
Virology. 2011 Apr 25;413(1):47-59. doi: 10.1016/j.virol.2010.12.052. Epub 2011 Feb 26.
9
CCR5 antibodies HGS004 and HGS101 preferentially inhibit drug-bound CCR5 infection and restore drug sensitivity of Maraviroc-resistant HIV-1 in primary cells.CCR5 抗体 HGS004 和 HGS101 优先抑制药物结合的 CCR5 感染,并恢复原发性细胞中马拉维若耐药 HIV-1 的药物敏感性。
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Env 糖蛋白异质性是中和抗体和进入抑制剂抑制 HIV-1 感染中协同作用和增强协同作用的来源。

Env-glycoprotein heterogeneity as a source of apparent synergy and enhanced cooperativity in inhibition of HIV-1 infection by neutralizing antibodies and entry inhibitors.

机构信息

Department of Microbiology and Immunology, Weill Medical College of Cornell University, New York, NY 10065-4896, USA.

出版信息

Virology. 2012 Jan 5;422(1):22-36. doi: 10.1016/j.virol.2011.09.019. Epub 2011 Oct 22.

DOI:10.1016/j.virol.2011.09.019
PMID:22018634
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3229656/
Abstract

We measured the inhibition of infectivity of HIV-1 isolates and derivative clones by combinations of neutralizing antibodies (NAbs) and other entry inhibitors in a single-cycle-replication assay. Synergy was analyzed both by the current linear and a new non-linear method. The new method reduced spurious indications of synergy and antagonism. Synergy between NAbs was overall weaker than between other entry inhibitors, and no stronger where one ligand is known to enhance the binding of another. However, synergy was stronger for a genetically heterogeneous HIV-1 R5 isolate than for its derivative clones. Enhanced cooperativity in inhibition by combinations, compared with individual inhibitors, correlated with increased synergy at higher levels of inhibition, while being less variable. Again, cooperativity enhancement was stronger for isolates than clones. We hypothesize that genetic, post-translational or conformational heterogeneity of the Env protein and of other targets for inhibitors can yield apparent synergy and increased cooperativity between inhibitors.

摘要

我们在单次复制测定中测量了中和抗体(NAb)和其他进入抑制剂组合对 HIV-1 分离株和衍生克隆的感染性抑制作用。通过当前的线性和新的非线性方法分析了协同作用。新方法减少了协同作用和拮抗作用的虚假迹象。NAb 之间的协同作用总体上弱于其他进入抑制剂之间的协同作用,而且在已知一种配体增强另一种配体结合的情况下,协同作用也不强。然而,对于遗传异质性 HIV-1 R5 分离株,其协同作用强于其衍生克隆。与单独抑制剂相比,组合抑制的协同增强与更高抑制水平下更强的协同作用相关,同时变异性更小。同样,与克隆相比,协同增强在分离株中更强。我们假设 Env 蛋白和其他抑制剂靶标的遗传、翻译后或构象异质性可能产生抑制剂之间的表观协同作用和增强的协同作用。