Modelling Role of Protective and Nonprotective HLA Allele Inducing Different HIV Infection Outcomes.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Shilian Xu
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Abstract

Human immunodeficiency virus (HIV) infects CD4+ cells and causes progressive immune function failure, and CD8+ cells lyse infected CD4+ cell via recognising peptide presented by human leukocyte antigens (HLA). Variations in HLA allele lead to observed different HIV infection outcomes. Within-host HIV dynamics involves virus replication within infected cells and lysing of infected cells by CD8+ cells, but how variations in HLA alleles determine different infection outcomes was far from clear. Here, we used mathematical modelling and parameter inference with a new analysis of published virus inhibition assay data to estimate CD8+ cell lysing efficiency, and found that lysing efficiency fall in the gap between low bound (0.1-0.2 day-1 (Elemans et al. in PLoS Comput Biol 8(2):e1002381, 2012)) and upper boundary (6.5-8.4 day-1 (Wick et al. in J Virol 79(21):13579-13586, 2005)). Our outcomes indicate that both lysing efficiency and viral inoculum size jointly determine observed different infection outcomes. Low lysing rate associated with non-protective HLA alleles leads to monostable viral kinetic to high viral titre and oscillatory viral kinetics. High lysing rate associated with protective HLA alleles leads monostable viral kinetic to low viral titre and bistable viral kinetics; at a specific interval of CD8+ cell counts, small viral inoculum sizes are inhibited but not large viral inoculum sizes remain infectious. Further, with CD8+ cell recruitment, HIV kinetics always exhibit oscillatory kinetics, but lysing rate is negatively correlated with range of CD8+ cell count. Our finding highlights role of HLA allele determining different infection outcomes, thereby providing a potential mechanistic explanation for observed good and bad HIV infection outcomes induced by protective HLA allele.

Abstract Image

模拟保护性和非保护性 HLA 等位基因诱发不同 HIV 感染结果的作用。
人类免疫缺陷病毒(HIV)会感染 CD4+ 细胞并导致免疫功能逐渐衰竭,CD8+ 细胞会通过识别人类白细胞抗原(HLA)呈现的肽来裂解受感染的 CD4+ 细胞。HLA 等位基因的变异会导致不同的 HIV 感染结果。宿主内的 HIV 动态变化包括病毒在受感染细胞内的复制和 CD8+ 细胞对受感染细胞的裂解,但 HLA 等位基因的变化如何决定不同的感染结果却远不清楚。在这里,我们利用数学建模和参数推断,对已发表的病毒抑制检测数据进行了新的分析,以估算 CD8+ 细胞的裂解效率,结果发现裂解效率介于低限(0.1-0.2 天-1(Elemans 等人,发表于《PLoS Comput Biol》8(2):e1002381, 2012)和上限(6.5-8.4 天-1(Wick 等人,发表于《J Virol》79(21):13579-13586, 2005)之间。)我们的研究结果表明,裂解效率和病毒接种体大小共同决定了观察到的不同感染结果。与非保护性 HLA 等位基因相关的低裂解率会导致从单稳态病毒动力学到高病毒滴度和振荡病毒动力学。与保护性 HLA 等位基因相关的高裂解率会导致从单稳态病毒动力学到低病毒滴度和双稳态病毒动力学;在特定的 CD8+ 细胞数量区间,小病毒接种体大小会受到抑制,但大病毒接种体大小则不会保持感染性。此外,随着 CD8+ 细胞的招募,HIV 动力学总是表现出振荡动力学,但裂解率与 CD8+ 细胞数量的范围呈负相关。我们的发现凸显了 HLA 等位基因决定不同感染结果的作用,从而为观察到的由保护性 HLA 等位基因诱导的好的和坏的 HIV 感染结果提供了潜在的机理解释。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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