Positive feedback through inflammation creates bistable behavior in HIV tissue sanctuaries.

Aditya Jagarapu, Rajveer Mann, Michael J Piovoso, Ryan Zurakowski
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引用次数: 2

Abstract

Combination Antiretroviral Therapy (cART) consists of a cocktail of drugs administered to HIV-infected patients that can suppress the amount of HIV in the patient's blood plasma to an undetectable level. Our previous work has suggested that some HIV-infected patients, despite being placed on cART, can still have ongoing viral replication occurring in self-sustaining inflamed lymph node follicle sanctuary sites. Spatial models of the putative sites show that inflammation is a necessary condition for ongoing HIV replication. In this study, we model the hypothesis that ongoing HIV replication may provide a sufficiently strong pro-inflammatory signal to maintain inflammation levels consistent with continued HIV replication. A system of ordinary differential equations integrated with a reactive-diffusion system is used to model the HIV dynamics and the diameter of a lymph node follicle as a function of time and external influence. The estimates of the parameters in our model come from prior data when available. The results of our study show that these dynamics have two stable steady-state solutions, one with low inflammation and no ongoing HIV replication in the site, and one with high inflammation and high levels of ongoing HIV replication in the site. We furthermore show that the system can transition between the two outcomes in response to a transient exogenous addition of pro-inflammatory signaling, consistent with the antigenic stimulus of a secondary infection. The spatial isolation of the sites results in a low viral load in the blood plasma for both conditions.

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通过炎症产生的积极反馈在HIV组织庇护所中创造了双稳态行为。
抗逆转录病毒联合疗法(cART)是一种混合药物,用于艾滋病病毒感染者,可以将患者血浆中的艾滋病病毒数量抑制到无法检测的水平。我们之前的工作表明,一些hiv感染患者,尽管被放置在cART上,仍然可以在自我维持的炎症淋巴结滤泡避难所发生持续的病毒复制。假设位点的空间模型表明,炎症是HIV持续复制的必要条件。在这项研究中,我们建立了一个假设模型,即持续的HIV复制可能提供足够强的促炎信号,以维持与持续的HIV复制一致的炎症水平。结合反应扩散系统的常微分方程系统用于模拟HIV动力学和淋巴结滤泡直径作为时间和外部影响的函数。我们模型中参数的估计来自可用的先前数据。我们的研究结果表明,这些动态有两种稳定的稳态解决方案,一种是低炎症和没有持续的HIV复制,另一种是高炎症和高水平的HIV复制。我们进一步表明,该系统可以在两种结果之间转换,以响应短暂的外源性促炎信号,这与继发性感染的抗原刺激一致。这些位点的空间隔离导致两种情况下血浆中的病毒载量都很低。
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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CiteScore
2.40
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