Nelfinavir inhibition of Kaposi's sarcoma-associated herpesvirus protein expression and capsid assembly.

IF 3.1 2区医学 Q3 IMMUNOLOGY

Infectious Agents and Cancer Pub Date : 2024-03-04 DOI:10.1186/s13027-024-00566-7

Maggie Li, Barbara J Smith, Jaeyeun Lee, Jennifer Petr, Nicole M Anders, Robyn Wiseman, Michelle A Rudek, Richard F Ambinder, Prashant J Desai

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引用次数: 0

Abstract

Background: Antiviral therapies that target herpesviruses are clinically important. Nelfinavir is a protease inhibitor that targets the human immunodeficiency virus (HIV) aspartyl protease. Previous studies demonstrated that this drug could also inhibit Kaposi's sarcoma-associated herpesvirus (KSHV) production. Our laboratory demonstrated nelfinavir can effectively inhibit herpes simplex virus type 1 (HSV-1) replication. For HSV-1 we were able to determine that virus capsids were assembled and exited the nucleus but did not mature in the cytoplasm indicating the drug inhibited secondary envelopment of virions.

Methods: For KSHV, we recently derived a tractable cell culture system that allowed us to analyze the virus replication cycle in greater detail. We used this system to further define the stage at which nelfinavir inhibits KSHV replication.

Results: We discovered that nelfinavir inhibits KSHV extracellular virus production. This was seen when the drug was incubated with the cells for 3 days and when we pulsed the cells with the drug for 1-5 min. When KSHV infected cells exposed to the drug were examined using ultrastructural methods there was an absence of mature capsids in the nucleus indicating a defect in capsid assembly. Because nelfinavir influences the integrated stress response (ISR), we examined the expression of viral proteins in the presence of the drug. We observed that the expression of many were significantly changed in the presence of drug. The accumulation of the capsid triplex protein, ORF26, was markedly reduced. This is an essential protein required for herpesvirus capsid assembly.

Conclusions: Our studies confirm that nelfinavir inhibits KSHV virion production by disrupting virus assembly and maturation. This is likely because of the effect of nelfinavir on the ISR and thus protein synthesis and accumulation of the essential triplex capsid protein, ORF26. Of interest is that inhibition requires only a short exposure to drug. The source of infectious virus in saliva has not been defined in detail but may well be lymphocytes or other cells in the oral mucosa. Thus, it might be that a "swish and spit" exposure rather than systemic administration would prevent virion production.

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奈非那韦抑制卡波西肉瘤相关疱疹病毒蛋白的表达和囊膜组装。

背景：针对疱疹病毒的抗病毒疗法在临床上非常重要。奈非那韦是一种蛋白酶抑制剂，针对人类免疫缺陷病毒（HIV）的天冬氨酰蛋白酶。之前的研究表明，这种药物也能抑制卡波西肉瘤相关疱疹病毒（KSHV）的产生。我们的实验室证明，奈非那韦能有效抑制 1 型单纯疱疹病毒（HSV-1）的复制。对于 HSV-1，我们能够确定病毒衣壳已组装完成并从细胞核中排出，但并未在细胞质中成熟，这表明该药物抑制了病毒的二次包膜：方法：对于 KSHV，我们最近获得了一种可控制的细胞培养系统，使我们能够更详细地分析病毒的复制周期。我们利用这一系统进一步确定了奈非那韦抑制 KSHV 复制的阶段：结果：我们发现奈非那韦能抑制KSHV细胞外病毒的产生。当药物与细胞培养 3 天，以及当我们用药物脉冲作用细胞 1-5 分钟时，都能看到这种抑制作用。当使用超微结构方法检查暴露于药物的 KSHV 感染细胞时，发现细胞核中没有成熟的囊膜，这表明囊膜组装存在缺陷。由于奈非那韦会影响综合应激反应（ISR），因此我们检测了有药物存在时病毒蛋白质的表达情况。我们观察到，在有药物存在的情况下，许多病毒蛋白的表达发生了显著变化。噬菌体三重蛋白 ORF26 的积累明显减少。这是疱疹病毒荚膜组装所必需的蛋白：我们的研究证实，奈非那韦通过破坏病毒的组装和成熟来抑制 KSHV 病毒的产生。这可能是由于奈非那韦对ISR的影响，从而影响了蛋白合成和重要的三重荚膜蛋白ORF26的积累。值得注意的是，抑制作用只需要短时间的药物接触。唾液中传染性病毒的来源尚未详细确定，但很可能是口腔粘膜中的淋巴细胞或其他细胞。因此，"唰唰吐 "接触而不是全身用药可能会阻止病毒的产生。

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来源期刊

Infectious Agents and Cancer ONCOLOGY-IMMUNOLOGY

CiteScore

5.80

自引率

2.70%

发文量

期刊介绍： Infectious Agents and Cancer is an open access, peer-reviewed online journal that encompasses all aspects of basic, clinical, epidemiological and translational research providing an insight into the association between chronic infections and cancer. The journal welcomes submissions in the pathogen-related cancer areas and other related topics, in particular: • HPV and anogenital cancers, as well as head and neck cancers; • EBV and Burkitt lymphoma; • HCV/HBV and hepatocellular carcinoma as well as lymphoproliferative diseases; • HHV8 and Kaposi sarcoma; • HTLV and leukemia; • Cancers in Low- and Middle-income countries. The link between infection and cancer has become well established over the past 50 years, and infection-associated cancer contribute up to 16% of cancers in developed countries and 33% in less developed countries. Preventive vaccines have been developed for only two cancer-causing viruses, highlighting both the opportunity to prevent infection-associated cancers by vaccination and the gaps that remain before vaccines can be developed for other cancer-causing agents. These gaps are due to incomplete understanding of the basic biology, natural history, epidemiology of many of the pathogens that cause cancer, the mechanisms they exploit to cause cancer, and how to interrupt progression to cancer in human populations. Early diagnosis or identification of lesions at high risk of progression represent the current most critical research area of the field supported by recent advances in genomics and proteomics technologies.