Antiviral effect of the viroporin inhibitors against Taiwan isolates of infectious bronchitis virus (IBV)

IF 2.5 4区 医学 Q3 VIROLOGY Virus research Pub Date : 2024-08-27 DOI:10.1016/j.virusres.2024.199458
Mikael Cristofer Sitinjak , Jui-Kai Chen , Fang-Lin Liu , Ming-Hon Hou , Shan-Meng Lin , Hung-Jen Liu , Chi-Young Wang
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Abstract

Coronaviruses (CoVs) are significant animal and human pathogens, characterized by being enveloped RNA viruses with positive-sense single-stranded RNA. The Coronaviridae family encompasses four genera, among which gammacoronaviruses pose a major threat to the poultry industry, which infectious bronchitis virus (IBV) being the most prominent of these threats. Particularly, IBV adversely affects broiler growth and egg production, causing substantial losses. The IBV strains currently circulating in Taiwan include the IBV Taiwan-I (TW-I) serotype, IBV Taiwan-II (TW-II) serotype, and vaccine strains. Therefore, ongoing efforts have focused on developing novel vaccines and discovering antiviral agents. The envelope (E) proteins of CoVs accumulate in the endoplasmic reticulum-Golgi intermediate compartment prior to virus budding. These E proteins assemble into viroporins, exhibiting ion channel activity that leads to cell membrane disruption, making them attractive targets for antiviral therapy.

In this study, we investigated the E proteins of IBV H-120, as well as IBV serotypes TW-I and TW-II. E protein expression resulted in inhibited bacteria growth, increased permeability of bacteria to β-galactosidase substrates, and blocked protein synthesis of bacteria by hygromycin B (HygB). Furthermore, in the presence of E proteins, HygB also impeded protein translation in DF-1 cells and damaged their membrane integrity. Collectively, these findings confirm the viroporin activity of the E proteins from IBV H-120, IBV serotype TW-I, and IBV serotype TW-II. Next, the viroporin inhibitors, 5-(N,N-hexamethylene) amiloride (HMA) and 4,4’-diisothiocyano stilbene-2,2’-disulphonic acid (DIDS) were used to inhibit the viroporin activities of the E proteins of IBV H-120, IBV serotype TW-I, and IBV serotype TW-II. In chicken embryos and chickens infected with IBV serotypes TW-I and IBV TW-II, no survivors were observed at 6 and 11 days post-infection (dpi), respectively. However, treatments with both DIDS and HMA increased the survival rates in infected chicken embryos and chickens and mitigated histopathological lesions in the trachea and kidney. Additionally, a 3D pentameric structure of the IBV E protein was constructed via homology modeling. As expected, both inhibitors were found to bind to the lipid-facing surface within the transmembrane domain of the E protein, inhibiting ion conduction. Taken together, our findings provide comprehensive evidence supporting the use of viroporin inhibitors as promising antiviral agents against IBV Taiwan isolates.

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病毒抑制剂对台湾分离的传染性支气管炎病毒(IBV)的抗病毒作用。
冠状病毒(CoVs)是重要的动物和人类病原体,其特征是具有正义单链 RNA 的包膜 RNA 病毒。冠状病毒科包括四个属,其中伽马冠状病毒对家禽业构成重大威胁,而传染性支气管炎病毒(IBV)是其中最突出的威胁。尤其是 IBV 会对肉鸡的生长和产蛋产生不利影响,造成重大损失。目前在台湾流行的 IBV 株系包括 IBV 台湾 I 型(TW-I)血清型、IBV 台湾 II 型(TW-II)血清型和疫苗株。因此,目前的工作重点是开发新型疫苗和发现抗病毒药物。CoV 的包膜(E)蛋白在病毒出芽前积聚在内质网-高尔基体中间区室。这些 E 蛋白组装成病毒孢子蛋白,表现出离子通道活性,导致细胞膜破坏,使它们成为抗病毒治疗的诱人靶标。在本研究中,我们对 IBV H-120 以及 IBV 血清型 TW-I 和 TW-II 的 E 蛋白进行了研究。E 蛋白的表达抑制了细菌的生长,增加了细菌对 β-半乳糖苷酶底物的通透性,并阻断了细菌在土霉素 B(HygB)作用下的蛋白质合成。此外,在 E 蛋白存在的情况下,HygB 还会阻碍 DF-1 细胞的蛋白质翻译,并破坏其膜的完整性。总之,这些发现证实了 IBV H-120、IBV 血清型 TW-I 和 IBV 血清型 TW-II 的 E 蛋白具有抗病毒活性。接下来,我们使用病毒抑制剂 5-(N,N-六亚甲基)阿米洛利(HMA)和 4,4'-二硫氰基-2,2'-二苯乙烯二磺酸(DIDS)来抑制 IBV H-120、IBV 血清型 TW-I 和 IBV 血清型 TW-II 的 E 蛋白的病毒抑制活性。在鸡胚和鸡感染 IBV 血清型 TW-I 和 IBV 血清型 TW-II 后,分别在感染后 6 天和 11 天(dpi)未观察到存活者。然而,使用 DIDS 和 HMA 可提高受感染鸡胚和鸡的存活率,并减轻气管和肾脏的组织病理学损伤。此外,还通过同源建模构建了 IBV E 蛋白的三维五聚体结构。不出所料,两种抑制剂都能与 E 蛋白跨膜结构域内的脂面结合,从而抑制离子传导。总之,我们的研究结果提供了全面的证据,支持使用病毒蛋白抑制剂作为抗台湾 IBV 分离物的抗病毒药物。
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来源期刊
Virus research
Virus research 医学-病毒学
CiteScore
9.50
自引率
2.00%
发文量
239
审稿时长
43 days
期刊介绍: Virus Research provides a means of fast publication for original papers on fundamental research in virology. Contributions on new developments concerning virus structure, replication, pathogenesis and evolution are encouraged. These include reports describing virus morphology, the function and antigenic analysis of virus structural components, virus genome structure and expression, analysis on virus replication processes, virus evolution in connection with antiviral interventions, effects of viruses on their host cells, particularly on the immune system, and the pathogenesis of virus infections, including oncogene activation and transduction.
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