使用纳米银增加了中和抗体对 HIV-1 包膜蛋白的抑制作用，从而抑制了细胞相关的 HIV-1 感染。

Use of silver nanoparticles increased inhibition of cell-associated HIV-1 infection by neutralizing antibodies developed against HIV-1 envelope proteins.

机构信息

Department of Life Sciences, Winston-Salem State University, Winston Salem, NC 27110, USA.

出版信息

J Nanobiotechnology. 2011 Sep 18;9:38. doi: 10.1186/1477-3155-9-38.

DOI:10.1186/1477-3155-9-38

PMID:21923937

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3180349/

Abstract

BACKGROUND

HIV/AIDS pandemic is a worldwide public health issue. There is a need for new approaches to develop new antiviral compounds or other therapeutic strategies to limit viral transmission. The envelope glycoproteins gp120 and gp41 of HIV are the main targets for both silver nanoparticles (AgNPs) and neutralizing antibodies. There is an urgency to optimize the efficiency of the neutralizing antibodies (NABs). In this study, we demonstrated that there is an additive effect between the four NABs and AgNPs when combined against cell-associated HIV-1 infection in vitro

RESULTS

Four NABs (Monoclonal antibody to HIV-1 gp41 126-7, HIV-1 gp120 Antiserum PB1 Sub 2, HIV-1 gp120 Antiserum PB1, HIV-1 gp120 Monoclonal Antibody F425 B4e8) with or without AgNPs of 30-50 nm in size were tested against cell free and cell-associated HIVIIIB virus. All NABs inhibited HIV-1 cell free infection at a dose response manner, but with AgNPs an antiviral additive effect was not achieved Although there was no inhibition of infection with cell-associated virus by the NABs itself, AgNPs alone were able to inhibit cell associated virus infection and more importantly, when mixed together with NABs they inhibited the HIV-1 cell associated infection in an additive manner.

DISCUSSION

The most attractive strategies to deal with the HIV problem are the development of a prophylactic vaccine and the development of effective topical vaginal microbicide. For two decades a potent vaccine that inhibits transmission of infection of HIV has been searched. There are vaccines that elicit NABs but none of them has the efficacy to stop transmission of HIV-1 infection. We propose that with the addition of AgNPs, NABs will have an additive effect and become more potent to inhibit cell-associated HIV-1 transmission/infection.

CONCLUSIONS

The addition of AgNPs to NABs has significantly increased the neutralizing potency of NABs in prevention of cell-associated HIV-1 transmission/infection. Further exploration is required to standardize potentiation of NABs by AgNPs. It is also required to evaluate in vivo toxicity of AgNPs before AgNPs could be incorporated in any antiviral vaginal creams.

摘要

背景

艾滋病是全球公共卫生问题。我们需要新的方法来开发新的抗病毒化合物或其他治疗策略，以限制病毒传播。HIV 的包膜糖蛋白 gp120 和 gp41 是银纳米粒子（AgNPs）和中和抗体的主要靶点。我们迫切需要优化中和抗体（NABs）的效率。在这项研究中，我们证明了在体外针对细胞相关 HIV-1 感染时，四种 NABs 与 AgNPs 联合使用具有相加作用。

结果

我们测试了四种 NABs（针对 HIV-1 gp41 126-7 的单克隆抗体、HIV-1 gp120 抗血清 PB1 亚 2、HIV-1 gp120 抗血清 PB1、HIV-1 gp120 单克隆抗体 F425 B4e8）与 30-50nm 大小的 AgNPs 联合使用，以对抗无细胞和细胞相关 HIVIIIB 病毒。所有 NABs 均以剂量反应方式抑制 HIV-1 无细胞感染，但 AgNPs 并未产生抗病毒相加作用。尽管 NABs 本身不能抑制细胞相关病毒感染，但 AgNPs 单独就能抑制细胞相关病毒感染，更重要的是，当与 NABs 混合使用时，它们能以相加方式抑制 HIV-1 细胞相关感染。

讨论

应对艾滋病问题最有吸引力的策略是开发预防性疫苗和有效的局部阴道杀微生物剂。二十年来，人们一直在寻找一种能抑制 HIV 感染传播的强效疫苗。已经有一些疫苗能引发 NABs，但没有一种能有效阻止 HIV-1 感染的传播。我们提出，加入 AgNPs 后，NABs 将具有相加作用，并且能更有效地抑制细胞相关 HIV-1 的传播/感染。

结论

AgNPs 的加入显著增加了 NABs 预防细胞相关 HIV-1 传播/感染的中和效力。需要进一步探索 AgNPs 对 NABs 的增强作用，以使其标准化。在将 AgNPs 纳入任何抗病毒阴道乳膏之前，还需要评估 AgNPs 的体内毒性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3653/3180349/f32884af134c/1477-3155-9-38-1.jpg

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使用纳米银增加了中和抗体对 HIV-1 包膜蛋白的抑制作用，从而抑制了细胞相关的 HIV-1 感染。

Use of silver nanoparticles increased inhibition of cell-associated HIV-1 infection by neutralizing antibodies developed against HIV-1 envelope proteins.

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